BellSouth Network Router E911 User Manual

Customer Guide  
CG-EWCG-001  
Issue 3, January 6, 2004  
Wireless E911 Guide  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Table of Contents  
Issue 3, January 6, 2004  
Contents  
Subject  
Page  
Introduction / Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Purpose . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Version Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1. Overview of E911 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1.1  
Definition of E911 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Selective Routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Automatic Number Identification (ANI) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Automatic Location Identification (ALI) . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Premises Based ALI Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
PSAP Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Databases Required to Support E911 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Master Street Address Guide (MSAG) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Telephone Number (TN) Database . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
E911 Tandem / Network Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Glossary of Terms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Database Escalation Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Access To NDSC Analysts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Level One Escalation: Intrado . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Level Two Escalation: Intrado . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Level Three Escalation: Bellsouth . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1.1.1  
1.1.2  
1.1.3  
1.1.4  
1.2  
1.3  
1.4  
1.5  
1.6  
1.7  
1.8  
1.8.1  
1.8.2  
1.8.3  
1.8.4  
2. Coordination of Wireless Interconnection . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.1  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Coordination Process: Wireless Carrier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Coordination Process: BST Wireless Account Team . . . . . . . . . . . . . . . . . . . . . . .  
Coordination Process: BST Wireless E911 Implementation Manager . . . . . . . . . . . .  
Coordination Process: Mobile Position Center Provider . . . . . . . . . . . . . . . . . . . . .  
Steps for Establishment/Change of Mobile Position Center Provider . . . . . . . . . . .  
Initial Establishment of Mobile Position Center Provider . . . . . . . . . . . . . . . . . .  
Change of Mobile Position Center Provider . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Information Required for Phase 2 MPC/GMLC Circuits to the ALI Hosts . . . . . . .  
Forms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
2.2  
2.3  
2.4  
2.5  
2.5.1  
2.5.2  
2.5.3  
2.5.4  
2.5.5  
3. Network Specifications and Ordering . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.1  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Specifications & Ordering Process: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Option 1: BellSouth NORTEL Solution Carring Phase 1 Data Only (CBN & pANI)  
Specification & Ordering Process: Option 2: Third Party Vendor Solution . . . . . . .  
Wireless Carrier Owned Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Trunking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Data Connections Required For Wireless Carrier Owned Hardware - Phase 1 Only .  
Wireless Phase 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
3.2  
3.2.1  
3.2.2  
3.3  
3.3.1  
3.3.2  
3.4  
Page iii  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
Table of Contents  
CG-EWCG-001  
Issue 3, January 6, 2004  
3.5  
Interface Testing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
4. MSAG Maintenance and ESN Assignment . . . . . . . . . . . . . . . . . . . . . . . . . .  
4.1  
4.2  
4.3  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
ESN Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
MSAG Maintenance and Validation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5. TN Database Updates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.1  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
TN Database Daily Updates: Wireless Carrier Responsibilities . . . . . . . . . . . . . . . .  
E911 Customer Responsibilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Instructions for NXX Table Update Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
NXX Table Update Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
MSAG Formatting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Correct Format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Incorrect Format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Standard Street Suffix (Thoroughfare) Designations / Directionals . . . . . . . . . . . . . .  
BellSouth Street Suffix (Thoroughfare) Abbreviations (Table) . . . . . . . . . . . . . . .  
Standard Location Designations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Updating the TN Database . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Service Order Interface File Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
SOIR File Data Record Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table: SOIR File Data Record - BellSouth 512 Character Format for Data Exchange  
SOIR File Header Record Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Table: SOIR File Header Record - BellSouth 512 Character Format for Data  
5.2  
5.3  
5.4  
5.5  
5.6  
5.6.1  
5.6.2  
5.7  
5.7.1  
5.8  
5.9  
5.10  
5.11  
5.11.1  
5.12  
5.12.1  
Exchange . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
SOIR File Trailer Record Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
SOIR File Trailer Record - BellSouth 512 Character Format for Data Exchange . . .  
Mechanized File Transfer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Mechanized File Confirmations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
5.13  
5.13.1  
5.14  
5.15  
6. TN Errors and Corrective Action . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
6.1  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Electronic Error Delivery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
The Confirmation Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
The Statistics Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Distribution of Daily Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
TN Error Deletion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Error Codes and Error Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Error Code and Corrective Action . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Compiled Error Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
6.2  
6.2.1  
6.2.2  
6.2.3  
6.2.4  
6.3  
6.4  
6.5  
7. PSAP Inquiries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
7.1  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
PSAP Inquiry Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
PSAP Inquiry Log . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Instructions for Completing PSAP Inquiry Log . . . . . . . . . . . . . . . . . . . . . . . .  
Inquiry Flow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Investigation Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
7.2  
7.3  
7.3.1  
7.4  
7.5  
Page iv  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Table of Contents  
Issue 3, January 6, 2004  
7.5.1  
7.5.2  
7.5.3  
7.5.4  
7.5.5  
7.6  
ALI Record Not Found . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Wrong ALI Display Of: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Address — Community — Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
ESN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Misroutes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Blank Forms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
PSAP Inquiry Log . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
7.6.1  
8. No Record Found (NRF) Processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
8.1  
8.2  
8.3  
8.4  
8.5  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
No Record Found (NRF) Processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
No Record Found (NRF) Report Schedule . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
No Record Found (NRF) Report Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
NRF Investigation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
9. NENA Company Registration Process . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
9.1  
NENA Cmpany ID Registration Service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Purpose of the NENA Company ID Registration Service . . . . . . . . . . . . . . . . . . . .  
Use of the Service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Input Form . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
9.2  
9.3  
9.4  
9.4.1  
10. Reconciliation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
10.1  
10.2  
10.3  
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Notification and Scheduling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Appendix A.  
BellSouth Wireless E9–1–1/SS7 Interconnection Guide . . . . . . . .  
A.1  
BellSouth Wireless E-9–1–1/SS7 Interconnection Guide . . . . . . . . . . . . . . . . . . . .  
Executive Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Identified Options: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Call Scenario 1, ESRK Delivery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Call Scenario 2, CBN and ESRD Delivery - WITHOUT a hybrid: (WITHOUT a  
hybrid architecture at the Selective Router) . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Call Scenario 2, CBN and ESRD Delivery - WITH a hybrid: (WITH a hybrid  
architecture at the Selective Router) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Call Scenario 3, CBN, ESRD and GLP Delivery: (GLP = Geodetic Location  
Parameter) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Database Steering Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Scope and introductory text . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Wireless E9-1-1 Service Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Reason for Revision . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Organization of this Document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Wireless CCS Network Interconnection Architecture . . . . . . . . . . . . . . . . . . . . . . .  
General Interconnection Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Wireless Phase 1 vs. Phase 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Interface Protocol for Wireless Call Setup when using SS7/ISUP signaling. . . . . . . .  
Calling Party Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Calling Party Number Parameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
A.2  
A.2.1  
A.2.1.1  
A.2.1.2  
A.2.1.3  
A.2.1.4  
A.2.2  
A.3  
A.3.1  
A.4  
A.5  
A.6  
A.6.1  
A.6.2  
A.7  
A.7.1  
A.7.2  
Page v  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
Table of Contents  
CG-EWCG-001  
Issue 3, January 6, 2004  
A.7.3  
A.7.4  
A.7.5  
A.7.6  
A.8  
Generic Digits Parameter & GDP Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Charge Number Parameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Calling Party Category Parameter (CPC, aka: CPCat) . . . . . . . . . . . . . . . . . . . .  
Originating Line Information Parameter . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Cross Reference Tables to J-STD-036-A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Wireline Compatibility Mode (NDET uses signaling option E911_STD) . . . . . . . .  
ISUP Initial Address Message Parameter Contents for NCAS (NDET uses signaling  
option WRLS_STD, because MSC can support GDP) . . . . . . . . . . . . . . . . . . . .  
ISUP Initial Address Message Parameter Contents for NCAS (NDET uses signaling  
option WRLS_CLD because MSC cannot support GDP) . . . . . . . . . . . . . . . . . .  
ISUP Initial Address Message Parameter Contents for CAS . . . . . . . . . . . . . . . .  
Cross Reference Tables to NENA TID 05-501 - SS7 Guidelines for MSC to Selective  
Router Connectivity. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Call Scenario 1: ESRK Delivery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
8.2 Call Scenario 2: CBN and ESRD Delivery . . . . . . . . . . . . . . . . . . . . . . . . .  
Attachment "A" - CPCat & OLI Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Calling Party Category parameter (CPC): . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Originating Line Parameter (OLI): . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Attachment "B" - Wireless Customer Questions & Answers: . . . . . . . . . . . . . . . . . .  
Why is BellSouth issuing this document? . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Do I have to change my existing trunks to SS7? . . . . . . . . . . . . . . . . . . . . . . . .  
Will this let me deliver ESRDs/ESRKs from more than one NPA on the SS7 trunk  
group? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Will this let me reduce the number of trunk groups I have in place? . . . . . . . . . . .  
What if I don’t have SS7 signaling "A" link connectivity to support trunking to the  
appropriate NDET? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
What do I do for Continuity Testing on these SS7 trunks? . . . . . . . . . . . . . . . . .  
11.0 Attachment "C" - Wireless Customer Checklist . . . . . . . . . . . . . . . . . . . . . . .  
A.8.1  
A.8.2  
A.8.3  
A.8.4  
A.9  
A.9.1  
A.9.2  
A.10  
A.10.1  
A.10.2  
A.11  
A.11.1  
A.11.2  
A.11.3  
A.11.4  
A.11.5  
A.11.6  
A.12  
Page vi  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
Introduction / Revision History  
Introduction / Revision History  
Purpose  
This document addresses Wireless E911.  
Version Information  
Added SS7/ISUP signaling option for trunking between the MSC and E911 tandems. Added Appendix A.  
Page vii  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
Introduction / Revision History  
Issue 3, January 6, 2004  
Page 8  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
Introduction / Revision History  
Page 9  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
Introduction / Revision History  
Issue 3, January 6, 2004  
Page 10  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Overview of E911  
Issue 3, January 6, 2004  
1. Overview of E911  
1.1  
Definition of E911  
"911" has been designated in the United States as the number to be used by the public to summon  
emergency aid or to report a crime, fire or accident. Its main purpose is to make it easier for people in time  
of emotional stress to contact the proper emergency agency. An important advantage of 911 emergency  
service is improved (reduced) response time.  
The original 911 service, known as Basic 911 (B911), routes a call to one centralized answering location.  
The attendant at the answering location obtains the pertinent information that identifies the call and the  
caller’s need. The attendant then determines the appropriate agency and dials the number to transfer  
the caller to that agency.  
Enhanced 911 service, or E911, is a full featured electronic system that provides three (3) major  
enhancements to Basic 911 service:  
1.1.1  
Selective Routing  
Electronically routes 911 emergency calls to the proper Public Safety Answering Point (PSAP) based  
on the Emergency Service Number (ESN) code that has been assigned to the cell site address or the  
longitude/latitude of the caller’s location. This may be accomplished by assigning "pseudo-ANI"  
telephone numbers to each face of each antenna in order to designate a fixed location for the serving  
area. Some wireless solutions allow the assignment of a pseudo-ANI telephone number to a specific  
PSAP rather than an antenna face. An ESN is assigned to the "pseudo-ANI" telephone numbers during  
database record processing and is assigned from the Master Street Address Guide (MSAG) based on  
the address. Some solutions may dynamically assign the ESN based upon the longitude/latitude of the  
caller’s location. Wireless Carriers must work with the local governmental agencies and agree on call  
routing, ESN assignments, and MSAG valid addresses. This process is described later in this document.  
Wireless Carriers should identify selective routing capabilities for premises based ALI systems and make  
arrangements to deliver wireless calls directly to the PSAP in those cases where selective routing is not  
utilized. See Premises Based ALI Systems below.  
1.1.2  
Automatic Number Identification (ANI)  
Provides the PSAP with the 7-digit pseudo-ANI telephone number representing the antenna face which  
received the wireless 9-1-1 call or the pseudo-ANI PSAP routing number, depending on the wireless  
solution implemented. Interfaces utilizing Feature Group D signaling between the E911 selective routing  
tandem and the PSAP may be capable of sending 10-digit ANI or 10-digit ANI and 10-digit call back  
number to the PSAP. Pseudo-ANI numbers must be assigned from the wireless carrier’s number range and  
must be geographically valid for the E911 selective routing tandem service area.  
1.1.3  
Automatic Location Identification (ALI)  
Provides the PSAP with cell site location information associated with the pseudo-ANI. Phase 1 compliance  
also requires ALI to contain the wireless subscribers call back number. This may be accomplished by the  
Page 1  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
Overview of E911  
CG-EWCG-001  
Issue 3, January 6, 2004  
wireless carrier providing a real-time update to the ALI databases during 9-1-1 call processing. Phase  
2 requires both of the data elements provided in Phase 1 plus the longitude and latitude of the caller’s  
location when they dialed 9-1-1. BellSouth supports E2 connectivity between MPCs and the ALI database  
hosts as defined in BellSouth Technical Reference TR73610, Issue 2. BellSouth will deliver the lat / long  
data to the PSAP in the ALI response message as described in BellSouth Technical Reference TR73528,  
Issue 6. Wireless Carriers must ensure dynamically updated records will comply with TR73528 when  
delivered to the PSAP. These Technical References may be found on the following web site:  
Note:  
To receive the maximum benefit of E911, the initial ALI database record must be assigned an  
MSAG valid address even if the tower is located in a rural area. MSAG valid addresses are  
obtained from the addressing authority in the E911 area where the cell site is located.  
1.1.4  
Premises Based ALI Systems  
Premises based ALI systems may have a separate database, software, and hardware located on the E911  
Customer premises. Wireless Carriers must identify all premises based systems in their service areas and  
comply with any special data or interface requirements. Carriers should meet with PSAPs to determine  
if selective routing or direct trunking is used to deliver 911 calls. If calls are not selectively routed to  
premises based ALI systems, the carrier may need to deliver wireless 911 calls to the PSAP administrative  
lines or use other arrangements as negotiated with the PSAP. This guide does not address issues related to  
premises based ALI systems.  
1.2  
PSAP Display  
The PSAP display for the ANI and ALI has been configured so that the PSAP attendant can immediately  
recognize from the English Language Translations (ELT) that the call is being made from a wireless  
device. The ALI response may contain the cell site sector location, subscriber call back number, and  
lat/long when available. An example of a typical PSAP display is shown. This screen/display will vary  
based on which PSAP equipment is chosen by the E911 Customer.  
Page 2  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Overview of E911  
Issue 3, January 6, 2004  
1.3  
Databases Required to Support E911  
Three (3) data files (or databases) are required to provide the data for display at the PSAP:  
Master Street Address Guide (MSAG)  
Telephone Number (TN) Database  
E911 Tandem/Network Information (TN/ESN)  
1.4  
Master Street Address Guide (MSAG)  
The MSAG contains all street information in the full featured E911 service area. The Emergency Service  
Numbers (ESNs) are assigned to the streets for routing 911 calls to the proper PSAP. As data records for  
the pseudo-ANI telephone numbers are processed from the wireless carriers, the address information on  
the data record is validated against the MSAG. Address information on the data records must exactly match  
the MSAG information or the data records will be considered an error and returned to the wireless carrier  
for correction. Data records are not posted to the database until they pass validation.  
1.5  
Telephone Number (TN) Database  
The TN database contains all of the wireline subscriber records and wireless pseudo-ANI records for all  
carriers in the E911 service area. This information includes the telephone number, name of the wireline  
subscriber, address, location, class and type of service. For the wireless carrier, it includes the pseudo-ANI  
Page 3  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
Overview of E911  
CG-EWCG-001  
Issue 3, January 6, 2004  
telephone number which has been assigned by the carrier, the carrier name, and the MSAG valid address  
of the cell site sector location. A full description of the data fields in the TN database may be found  
inTN Database Updates.  
The TN database is updated by the wireless carrier on an ongoing basis as new pseudo-ANI numbers are  
assigned or when existing information changes. This includes changes in antenna face coverage area when  
it impacts routing of 911 calls to the appropriate PSAP. The data record which is sent by the wireless carrier  
is validated against the MSAG for an exact address match and is assigned the appropriate ESN which is  
loaded into the E911 host database and the E911 tandem routing database. Details for providing TN data  
to the E911 host is explained later in this document. Some wireless solutions will dynamically update the  
cell site location, call back number, longitude, and latitude during 911 call processing. Wireless carriers  
are still required to provide "static" pseudo-ANI data records to the E911 host with MSAG valid addresses.  
These "static" records will be dynamically updated during 911 call processing. The cell site location  
information provided during the dynamic updates are not validated against the MSAG, but the original  
"static" record provided in the SOIR process will be validated and must contain MSAG valid information.  
Wireless Carriers must provide valid data records for inclusion in the TN database prior to testing or  
activating service. If data records are not posted to the TN database, the PSAP will receive a "NO  
RECORD FOUND" display when subscribers dial 911 which may delay getting them the emergency  
services they need.  
1.6  
E911 Tandem / Network Information  
Interconnection arrangements to the E911 tandem are negotiated with the wireless carrier’s BST  
Interconnection Services Account Representative. The wireless carrier must provide a minimum of two  
(2) Type 2C redundant trunks to the E911 tandem office(s) that will serve the Mobile Switching Center  
(MSC). Additional facilities may be required depending on the technical solution used to dynamically pass  
the wireless call back number and longitude/latitude to the ALI database. Data circuits must exist between  
MPCs and the ALI database hosts for the E2 interface required for Phase 2.  
Determining the proper PSAP to route wireless 911 calls must be negotiated between the wireless carrier  
and the E911 Coordinators in the serving areas. This must also include the proper PSAP to receive the  
wireless 911 call in the event of an ANI (pANI) failure from the MSC. All 911 calls will default route to  
the negotiated PSAP when an ANI (pANI) failure occurs. E911 Coordinators must agree on the PSAP to  
receive these calls. Once agreement has been reached with the E911 Coordinators, the wireless carrier will  
notify the BST Interconnect Account Representative of the PSAP location for default routing. This will  
allow for BST to establish the necessary translations in the E911 tandem office. The BST Interconnect  
Account Representative may assist the wireless carrier in identifying which E911 tandem office should be  
used to route calls to a specific PSAP.  
Page 4  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Overview of E911  
Issue 3, January 6, 2004  
1.7  
Glossary of Terms  
Table B Glossary of Terms  
Term  
Definition  
ACAC  
Access Carrier Advocacy Center  
Address Verification  
Request (AVR)  
A form issued by each telco to refer and resolve address  
discrepancies with the E911 Customer.  
ALEC  
Alternative Local Exchange Carrier  
Alternate Routing  
A standard feature provided to allow E911 calls to be routed to a  
designated alternate location if :  
1. all E911 trunks to the primary PSAP are busy OR  
2. the primary PSAP closes down for a period. (i.e. night service)  
Automatic Location  
Identification (ALI)  
A feature by which the address associated with the telephone  
number (ANI or pANI) is forwarded to the PSAP for display.  
Automatic Number  
Identification (ANI)  
The telephone number assigned by the wireless carrier to the cell  
face or PSAP. Also known as Pseudo-ANI and Emergency Service  
Routing Digits (ESRD).  
Note: The pseudo-ANI number MUST be assigned from the  
wireless carrier number pool and be geographically correct for the  
serving area.  
BST  
BellSouth Telecommunications, Inc.  
Call Back Number  
Telephone number PSAP will use to dial the 911 caller in the event  
the call is disconnected. Also known as wireless Mobile Directory  
Number (MDN), Wireless Subscriber ANI (WS-ANI) and Calling  
Party Number (CPN).  
Call Through Testing  
The process of testing the network, equipment and database  
associated with an E911 system prior to the final cutover.  
CMRS  
CSU  
Commercial Mobile Radio Service  
Channel Service Unit  
DSU  
Data Service Unit  
E2 Interface  
The TIA / EIA / J-STD-036 E2 interface utilized to provide phase  
2 location information to the ALI database from the MPC. Refer  
to BellSouth TR73610, Issue 2.  
E911 Customer  
A governmental agency responsible for providing public safety and  
purchasing 911 service.  
- continued -  
Page 5  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
Overview of E911  
CG-EWCG-001  
Issue 3, January 6, 2004  
Table B Glossary of Terms (continued)  
Term  
Definition  
E911 Tandem Central The central office designated for a geographical area to receive end  
Office Switch  
office E911 calls and route to the appropriate PSAP.  
Emergency Service  
Number (ESN)  
A number associated with the geographical area served by the same  
fire, police and ambulance districts.  
Emergency Service  
Routing Digits  
(ESRD)  
See ANI or pANI  
End Office  
The central office switch receiving E911 calls from subscribers.  
For wireless, this would be the MSC.  
FCC  
Federal Communications Commission  
Function of Change  
FOC  
GMLC  
(see MPC)  
ICO  
Independent Telephone Company  
Integrated Services  
A message protocol to support call set up and release for interoffice  
Digital Network User voice call connections over SS7 signaling.  
Part (ISUP)  
Intrado  
A vendor designated by BST to handle E911 data maintenance  
(formerly SCC)  
LOC  
Location  
Master Street Address All street data, including street names, address ranges and ESNs  
Guide (MSAG)  
used to validate incoming telephone number data for provisioning  
of selective routing.  
Mobile Position Center The network entity that provides phase 2 location information to  
(MPC)  
the ALI database over an E2 interface. For the purposes of this  
document, MPC and GMLC are considered equivalent although a  
GMLC is unique to the GSM environment.  
Mobile Switching  
Center (MSC)  
Wireless equivalent of an End Office, which provides switching  
functions from wireless calls.  
National Emergency  
Number Association  
(NENA)  
A professional association of 9-1-1 emergency number entities  
responsible for the planning, implementation, management and  
administration of national emergency number issues.  
NPA  
NRF  
NXX  
The area code of the telephone number.  
No Record Found  
The first three(3) digits of a telephone number following the NPA.  
- continued -  
Page 6  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Overview of E911  
Issue 3, January 6, 2004  
Table B Glossary of Terms (continued)  
Term  
Definition  
Pseudo-ANI (pANI)  
The telephone number assigned by the wireless carrier to designate  
a specific cell antenna face or PSAP. Also see Automatic Number  
Identification (ANI).  
Public Safety  
Answering Point  
(PSAP)  
The answering location for 911 calls.  
RCF  
Remote Call Forwarding  
SALI  
Stand Alone Automatic Location Identification  
SCC Communications A vendor designated by BST to handle E911 data maintenance  
(now Intrado)  
Selective Routing (SR) A standard feature that routes an E911call from the E911 tandem to  
the designated PSAP based upon the address and assigned ESNof  
the pseudo-ANI telephone number record.  
Service Order Interface A formatted data record sent to the E911 host computer system by  
Record (SOIR)  
the wireless carrier. (see TSS)  
Signaling System  
7 (SS7)/Common  
Channel Signaling 7  
(CCS7)  
An out-of-band signaling system used to provide basic routing  
information, call set up and other call termination functions.  
Signaling is removed from the voice channel and put on a separate  
data network.  
Subscriber  
System ID  
Person or end user making a 911 call.  
A two(2) character code used to identify a tandem. (Assigned by  
BST)  
Tandem Routing  
An arrangement for connecting E911calls to the correct PSAP  
based on the ESN associated to the pseudo-ANI telephone number  
service address. (see Selective Routing)  
Telco (Telephone  
Company)  
A term used interchangeable throughout this document to depict a  
Bell Operating Co., an Independent Company, an Alternative Local  
Exchange Carrier (ALEC) or a Wireless service provider.  
TN  
Telephone Number  
Transaction Servicing The BellSouth E911vendor’s computer system that performs  
System (TSS)  
database processing.  
WSANI  
Wireless Subscribers ANI (see ANI or pANI)  
Note:  
Additional wireless and technical information may be found on the NENA web site at  
http://nena9-1-1.org:Click here to access website.  
Page 7  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
Overview of E911  
CG-EWCG-001  
Issue 3, January 6, 2004  
1.8  
Database Escalation Procedures  
The following procedures have been established for Wireless Carrier escalation of database related issues  
to BellSouth / Intrado: (Examples of these issues are, but not limited to: MSAG problems, NPA / NXX  
updates, etc.)  
The initial trouble / problem referral made by the Wireless Carrier should go to the Intrado NDSC  
Data Analyst. The escalation process will normally begin after a referral is made to the NDSC with  
unsatisfactory or no resolution.  
1.8.1  
DIAL 1-888-584-3810, AT THE PROMPT, ENTER THE APPROPRIATE EXTENSION NUMBER.  
1.8.2 Level One Escalation: Intrado  
Data Opns SUPERVISOR (Kelley Thomson) extension 6269  
1.8.3 Level Two Escalation: Intrado  
Access To NDSC Analysts  
Data Opns MANAGER (Mike Wallace) extension 6270  
1-888-584-3810  
1.8.4  
Level Three Escalation: Bellsouth  
BellSouth Wireless E911 Implementation Manager: (205) 321-4785  
If the problem has not been resolved by Intrado or the problem has not been resolved to the customer’s  
satisfaction, the BellSouth Wireless E911 Implementation Manager should be contacted:  
1. The BellSouth Wireless E911 Implementation Manager should be notified of the problem.  
2. The BellSouth Wireless E911 Implementation Manager will involve the BellSouth  
Address/911 Staff Support organization as required. All 911 / addressing issues should be  
referred by the Wireless E911 Implementation Manager to the Address / 911 Staff.  
3. The Address / 911 Staff Support group will investigate and resolve or escalate up to the highest  
level necessary within BellSouth and / or Intrado. When the problem is resolved, A / 911  
Staff Support will advise the Wireless E911 Implementation Manager who will notify the  
customer of the resolution.  
Page 8  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
Coordination of Wireless Interconnection  
2. Coordination of Wireless Interconnection  
2.1  
Overview  
This section provides the Wireless Carrier with the steps necessary to interconnect with the BellSouth  
(BST) E911 network.  
The FCC Wireless Phase 1 Order requires the Wireless Carrier to provide both the cell site sector location  
information and the wireless subscribers call - back number for wireless 911 calls. Phase 2 requires the  
additional data fields longitude and latitude be provided to represent the location of the caller when they  
dialed 911. Cell site sector location information is provided in "static" database records as described in  
TN Database Updates. The subscriber’s call - back number, longitude, and latitude must be provided real  
- time during 911call processing. Various technical solutions may be chosen by the Wireless Carrier to  
provide the required data to the ALI database. Wireless Carriers must work with Intrado to ensure the  
chosen solution is compatible with the BST ALI database interfaces. Some solutions allow the "static"  
database records to be assigned on a PSAP basis with the cell site sector location information, call - back  
number, and the longitude / latitude being provided real-time during 911 call processing.  
Wireless Carriers must order Type 2C trunks for transmission of the voice and pseudo-ANI (pANI)  
numbers to the E911 tandem. Some solutions may require SS7 / ISUP trunking between the wireless MSC  
and the E911 tandem. If SS7 connectivity will be used, refer to Appendix A of this guide. In addition to  
these trunks, Wireless Carriers may be required to order two(2) digital data circuits with secondary channel  
to the BST Automatic Location Identification (ALI) computers. These circuits are necessary to provide  
Phase 1 real-time updates to the ALI database for storing the wireless subscribers ten digit call-back  
number and for some solutions, cell site sector location information. Two redundant ALI computers work  
as a mated pair, therefore a digital data circuit is required to each of the two ALI computers. The need for  
digital data circuits depends on the technical solution chosen. Steps to determine if there is a need, and  
how to order these circuits, are described in this section.  
Wireless Carriers must also provide E2 connectivity between the MPCs and the ALI database hosts  
allowing Phase 2 location information to be populated in the ALI databases.  
Interconnection to the BST E911 network involves the effort of various BST departments. The BST  
Wireless Account Team and Wireless E911 Implementation Manager will be the coordinators between the  
Wireless Carrier and the various BST departments to assist with steps necessary for interconnection.  
2.2  
Coordination Process: Wireless Carrier  
The Wireless Carrier will notify the BST Wireless Account team and provide general information  
concerning the request to interconnect to BST’s E911 network. This information should include the states,  
counties, and / or parishes that are involved in the wireless coverage area, the method of interconnection to  
the BST network, and the technical solution chosen to provide the wireless subscribers call - back number  
and longitude / latitude to the ALI database, and E2 interface information.  
Wireless Carriers must meet with each of the E911 Customers in the wireless coverage area to discuss cell  
site locations, valid addresses and formats for static database records, ESN assignments, identification  
Page 9  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
Coordination of Wireless Interconnection  
Issue 3, January 6, 2004  
of the appropriate E911 tandem, 911 call routing, default routing for ANI failures, and assignment of  
geographically valid pANI numbers from the wireless carrier’s number range. The E911 customers must  
agree on which PSAP will accept 911 calls from the various cell sites including when ANI failures occur.  
Wireless Carriers should also determine if the E911 Customers wish to segregate wireless 911 calls from  
wireline 911 calls by implementing separate trunk groups to the PSAP. All premises based E911 databases  
should be identified as well as any special procedures necessary to update those databases.  
Carriers must also work directly with Intrado to include the Carrier’s pANI numbers in the appropriate  
Security Tables and to identify the appropriate E2 interface to invoke for Phase 2.  
A Service Inquiry must be initiated by the Wireless Carrier through the BST Account team for the Type  
2C trunk connections and/or SS7 /ISUP trunks to the E911 tandems. If SS7 connectivity will be used,  
refer to Appendix A of this guide. The BST Wireless E911 Implementation Manager will discuss with  
the Wireless Carrier the process of ordering / provisioning the digital data circuits to the ALI computers,  
if new circuits are required.  
The Wireless Carrier must contact Intrado, the BST E911 database vendor, for all database related steps  
necessary for the establishment and maintenance of wireless database records and interfaces to the ALI  
computers. Carriers must post valid records in the E911 database prior to testing or turning up service.  
Additional information related to database requirements is found in this guide.  
Since access to E911 is a critical issue in today’s environment, it is necessary for the Wireless  
Carrier to provide 24 X 7 contact name and telephone number information for maintenance and  
trouble handling / clearing.  
2.3  
Coordination Process: BST Wireless Account Team  
The BST Wireless Account team will receive the initial request from the Wireless Carrier and initiate the  
BST Service Inquiry process for interconnection to the BST E911 network. The BST Account team will  
contact the BST Wireless E911 Implementation Manager to begin the internal BST coordination process.  
Various BST departments will review the Service Inquiry and update with additional required information.  
The BST Account team will then complete form RF-1004WS and forward this form, along with a copy  
of the Service Request, to the BST Wireless Service Center where service orders will be input into the  
service order system.  
A copy of the form RF-1004WS will also be distributed to the BST Implementation team and Intrado.  
2.4  
Coordination Process: BST Wireless E911 Implementation Manager  
The BST Wireless E911 Implementation Manager will assist the Wireless Carrier with the requirements  
for connecting to the BST E911 network. During this process the BST Wireless E911 Implementation  
Manager will determine if it is necessary for the Wireless Carrier to order digital data circuits to the  
BST ALI computers. The technical solution chosen by the Wireless Carrier will determine the need  
for these data circuits:  
Page 10  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
Coordination of Wireless Interconnection  
If the Wireless Carrier is connecting to a DMS100 E911 tandem utilizing an existing Nortel  
wireless connection to the ALI computers, no additional data circuits will be required for  
Phase 1.  
If the Wireless Carrier provides their own wireless solution hardware in their network, the  
Wireless Carrier must provide the data circuits.  
If the Wireless Carrier contracts with a third party to provide the connection to the ALI  
computers, the data circuits should be provided by the third party.  
If new solutions are negotiated, the BST Wireless E911 Implementation Manager will work  
with the Wireless Carrier and the BST team to determine the interconnection requirements  
and process flow.  
The BST Wireless E911 Implementation Manager will coordinate with the BST Wireless Access Carrier  
Advocacy Center (ACAC) the provisioning, testing, and Wireless Carrier acceptance of the Type 2C  
trunks to the BST E911 tandems as required. The BST Wireless E911 Implementation Manager will  
also coordinate with the BST departments and Intrado, the provisioning, testing, and acceptance of new  
data circuits to the ALI computers if applicable.  
The BST Wireless E911 Implementation Manager will issue a Teleprocessing Request form to Intrado and  
the BST IT Transport Group if new data circuits are required to the ALI computers.  
As required, the BST Wireless E911 Implementation Manager will assist the Wireless Carrier through the  
necessary processes required to complete the interconnection to the BST E911 network.  
2.5  
Coordination Process: Mobile Position Center Provider  
The Wireless Carrier will be required to submit written notification naming the Mobile Position Center  
(MPC) provider they have selected. Note that MPC and GMLC are equivalent with respect to this guide  
although a GMLC is unique to the GSM environment. This written notification should be submitted to the  
BST Wireless E911 Implementation Manager. Any subsequent change in MPC provider also requires  
written notification naming the new provider selected.  
2.5.1  
Steps for Establishment/Change of Mobile Position Center Provider  
The Wireless Carrier is required to provide written notification of their selected or modified MPC provider  
to the BST E911 Implementation Manager via US Mail, electronic mail, or fax:  
BST Wireless E911 Implementation Manager  
Attn: John Storey  
3535 Colonnade Parkway  
Birmingham, AL 35243  
Tel: 205-977-7653  
Fax: 205-977-7692  
Page 11  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
Coordination of Wireless Interconnection  
Issue 3, January 6, 2004  
2.5.2  
Initial Establishment of Mobile Position Center Provider  
The first step for the Wireless Carrier in establishing their MPC provider is to contact the BST Wireless  
E911 Implementation Manager. At that time a discussion will take place to determine the method of  
connectivity. The Wireless Carrier will be provided a questionnaire used to direct the Wireless Carrier  
to the next steps required for Phase II connectivity. Once it has been determined what the needs of the  
Wireless Carrier are, they will be directed to the appropriate network entity that will provide location  
information to the ALI database. When the determination has been made, the Wireless Carrier will then be  
asked to provide written notification to the BST Wireless E911 Implementation Manager as to who they  
have selected as their MPC provider.  
If the Wireless Carrier will use their own equipment and provide their own E2 Interface to BST, the  
first step is to contact the BST ICS E911 Product Manager. The Wireless Carrier is required to sign the  
Wireless E911 Phase 2 MPC Operator Interface Agreement and to work with the BST Wireless E911  
Implementation Manager to connect the E2 circuits to the ALI databases.  
2.5.3  
Change of Mobile Position Center Provider  
Should the Wireless Carrier change the MPC provider that was initially selected, written notification to the  
BST Wireless E911 Implementation Manager will be required. This notification may be sent via US Mail,  
electronic mail, or faxed to the address noted above.  
2.5.4  
Information Required for Phase 2 MPC/GMLC Circuits to the ALI Hosts  
The following information can be used by Wireless Carriers or their MPC/GMLC providers in placing  
orders for the E2 Data Links which will connect their MPCs or GMLCs to BellSouth’s ALI Host  
Computers located in the 4 Data Centers. The BellSouth ALI Host Computers in Miami, FL and Charlotte,  
NC serve FL, GA, NC and SC. The BellSouth ALI Host Computers in Birmingham, AL and Nashville, TN  
serve LA, MS, AL, TN and KY. MPCs/GMLCs must be connected to the appropriate ALI host pairs for  
the states served.  
PLASE NOTE - the following also contains information related to these circuit orders which must be  
returned to BellSouth’s Wireless E911 Implementation Manager as soon as it is available. This will aid  
in completion of preliminary forms that must be provided in advance of the orders to the data center  
personnel. to insure there are no delays in connecting and extending the circuits. Note that there is a  
separate form for each of the BellSouth ALI Host Computer locations.  
You should also contact Doug McCambridge at Intrado (720-494-6271) to schedule coordinated testing of  
these circuits. Intrado requires at a minimum 5 days notice prior to testing. Questions/comments can be  
directed to John Storey at 205-977-7653 or by e-mail at [email protected].  
Detailed Circuit Information (Circuit IDs for all segments of the circuits with 24 X 7 Contact names  
and numbers, etc.) is required so that service technicians can communicate with each other in the  
event of outages or maintenance issues.  
Page 12  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
Coordination of Wireless Interconnection  
2.5.5  
Forms  
Birmingham DATA Center: (serving LA, MS, AL, TN, KY)  
Nashville DATA Center: (serving LA, MS, AL, TN, KY)  
Charlotte DATA Center: (serving FL, GA, NC, SC)  
Miami DATA Center: (serving FL, GA, NC, SC)  
Page 13  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
Issue 3, January 6, 2004  
Page 14 - Blank  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
Network Specifications and Ordering  
3. Network Specifications and Ordering  
3.1  
Overview  
This section provides the Wireless Carrier with the Network Specifications and Ordering Procedures to be  
followed when ordering facilities to interconnect to the BST E911 network.  
Due to the complex nature and many processes involved with interconnecting to the BST E911  
network, coordination between the Wireless Carrier and the various BST organizations involved will  
be accomplished through the Wireless Carrier’s Marketing Account team and the BST Wireless E911  
Implementation Manager.  
3.2  
Specifications & Ordering Process:  
3.2.1  
Option 1: BellSouth NORTEL Solution Carring Phase 1 Data Only (CBN & pANI)  
This solution can be used for delivery of CBN and pANI as the Wireless Carrier begins to make Phase  
2 location data available via an E2 interface, as described in J-STD-036. The Wireless Carrier will be  
required to order a minimum of two(2), Type 2C, Feature Group - D (FG-D) or SS7/ISUP signaling  
trunks, connecting directly to the appropriate BellSouth E911 Tandem switch. If SS7 connectivity will be  
used, refer to Appendix A of this guide.  
Note:  
These trunks must use J-STD-034.7 POI-T8 (MF) Interface Signaling which can be designed  
with or without the optional pause for acknowledgement after the 1st stage address field.  
Refer to J-STD-034.7 for details. Ensure the BellSouth Wireless Account Team specifies the  
correct option on the order form.  
The Wireless Carrier will deliver a twenty(20) Digit FG-D signal consisting of the ten(10) digit call  
back number (CBN) and the ten(10) digit pseudo ANI (p-ANI), to the BellSouth E911 Tandem switch.  
This signal is in the following format:  
KP + II + 10 Digit CBN + ST + KP + 10 Digit p-ANI + ST  
Note that the "II" digits are placeholders and may be filled with any two(2) digits.  
These trunks are to be ordered through the Wireless Carriers BellSouth Wireless Account Team as an  
addendum to the Wireless Carriers existing contract with BellSouth.  
The Wireless Carrier is NOT required to order / purchase data link connections to the BellSouth ALI  
Host computers when using this option to provide Phase 1 information. The connection to the ALI Host  
computers will be handled by BellSouth. Wireless Carrier’s are responsible for providing E2 connectivity  
between the MPCs and BellSouth ALI Host computers as defined in BellSouth Technical Reference  
TR73610, Issue 2.  
Page 15  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
Network Specifications and Ordering  
Issue 3, January 6, 2004  
3.2.2  
Specification & Ordering Process: Option 2: Third Party Vendor Solution  
The Wireless Carrier will be required to order a minimum of two (2), Type 2C, CAMA or SS7/ISUP  
signaling trunks, connecting to the appropriate BellSouth E911 Tandem switch. If SS7 connectivity  
will be used, refer to Appendix A of this guide.  
If using CAMA signaling, the Wireless Carrier must be able to deliver to the BellSouth E911 Tandem  
the two(2) stage CAMA MF signal required for interfacing directly with the appropriate BellSouth E911  
Tandem switches. This signal is in the following format:  
Stage 1: KP + 11 + ST  
Stage 2: KP + Info Digit + 7 Digit ANI (p-ANI) + ST  
These trunks are to be ordered through the BellSouth Wireless Account Team as an addendum to the  
Wireless Carriers existing contract with BellSouth.  
The Wireless Carrier is NOT required to order / purchase data link connections to the BellSouth ALI Host  
computers when using this option. The connection to the ALI Host computers is handled by the provider of  
the solution chosen by the Wireless Carrier. Wireless Carriers must work with Intrado to ensure the chosen  
solution is compatible with the supported interfaces to the ALI Host computers. Wireless Carriers must  
establish E2 connectivity between MPCs and the BellSouth ALI Host computers for Phase 2 as defined in  
BellSouth Technical Reference TR73610, Issue 2.  
3.3  
Wireless Carrier Owned Hardware  
If the Wireless Carrier chooses to purchase their own protocol conversion hardware as a means of achieving  
Phase I Compliance, the specifications / ordering process will be as follows:  
3.3.1  
Trunking  
The Wireless Carrier will be required to order a minimum of two (2), Type 2C, CAMA or SS7/ISUP  
signaling trunks, connecting to the appropriate BellSouth E911 Tandem switch. If SS7 connectivity  
will be used, refer to Appendix A of this guide.  
The Wireless Carrier’s protocol conversion hardware must be able to deliver the two(2) stage CAMA  
MF signal required for interfacing directly with the BellSouth E911 Tandem switch. This signal is in  
the following format:  
Stage 1: KP + 11 + ST  
Stage 2: KP + Info Digit + 7 Digit ANI (p-ANI) + ST  
These trunks are to be ordered through the BellSouth Wireless Account Team as an addendum to the  
Wireless Carriers existing contract with BellSouth.  
Page 16  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
Network Specifications and Ordering  
3.3.2  
Only  
Data Connections Required For Wireless Carrier Owned Hardware - Phase 1  
In addition to the Type 2C CAMA or SS7 trunks, the Wireless Carrier will be required to purchase  
two(2)data link connections from their protocol conversion hardware directly to the BellSouth ALI Host  
computers. Two(2) data links are required because the BellSouth ALI Host computers are mated pairs  
for redundancy, and are located in different locations for diversity.  
These data links are 9.6 or 19.2 Kbps asynchronous or up to 56Kbps synchronous for X.25. The Secondary  
Channel feature is required in order to deploy end-to-end diagnostic and configuration capability from  
the master end (BellSouth Data Center) without disruptive consequences. The characteristics of the  
equipment used to modulate the data links are:  
Sub-rate digital Channel Service Unit/Data Service Unit (CSU / DSU) compatible with  
Memotec SC56  
10 bit data character  
-
-
-
1 start bit  
8 data bits (8th bit ignored)  
1 stop bit  
Full Duplex  
Continuous Carrier  
For additional information and details concerning the data interface, please refer to the following document  
which can be found on website www. interconnection.bellsouth.com/guides/html/tech_ref.html: and may  
be amended from time to time:  
TR 73610  
BELLSOUTH E911 REAL-TIME DATA INTERFACES FOR WIRELESS AND  
COMMERCIAL MOBILE RADIO SERVICE (CMRS) CONNECTION  
In most cases, these data links will be interlata / interstate connections. As such, they must be ordered  
through the Wireless Carriers Interexchange Carrier of choice. The BellSouth portion of these circuits  
will be provisioned and maintained through the appropriate BellSouth Interexchange Access Customer  
Advocacy Center (ACAC).  
Wireless Carriers must work with Intrado to ensure wireless solutions are compatible with the supported  
interfaces to the BellSouth ALI host computers.  
3.4  
Wireless Phase 2  
BellSouth supports the implementation of Wireless E911 Phase II through the nondiscriminatory access to  
its ALI database for those companies wishing to provide Mobile Position Center (MPC) functionality. For  
the purposes of this document, GMLC and MPC are considered equivalent although a GMLC is unique  
to a GSM environment. This access is facilitated through the BST ALI Interface. The MPC is defined  
as the network entity that provides location information to the ALI database. Each MPC provider must  
execute a contract with BellSouth. This contract must be signed and in place prior to testing Phase II.  
Wireless Carriers should ensure they have contracted with an MPC provider prior to negotiating Phase  
Page 17  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
Network Specifications and Ordering  
Issue 3, January 6, 2004  
II testing and implementation. BellSouth requires that Wireless Carriers provide notification in writing  
upon the selection or change in MPC providers.  
BellSouth is not responsible for the location determination technology, the accuracy of the location  
determination technology, or the investigation or maintenance of said technologies. Only the data required  
and specified by the FCC in its Report and Order 94-102 will be delivered by BellSouth to the PSAP when  
provided by the CMRS. This required data includes the cell site or sector location, the callback number,  
and the longitude/latitude of the caller. The delivery, or lack of delivery, of additional data elements which  
may be provided by the Wireless Carrier will not be the responsibility of BellSouth and BellSouth assumes  
no responsibility or liability for such information.  
3.5  
Interface Testing  
Wireless Carriers shall conduct joint testing of wireless interfaces to the BellSouth ALI computers. Testing  
will be required for first occurrences of a particular interface or vendor, and whenever changes are made to  
an existing interface.  
Testing shall be conducted with Intrado utilizing their test facility in Colorado, as well as field testing with  
the BellSouth production ALI computers within the BellSouth region. Charges may be incurred by the  
Wireless Carrier for this testing. Details shall be specified in interface agreements.  
Page 18  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
MSAG Maintenance and ESN Assignment  
4. MSAG Maintenance and ESN Assignment  
4.1  
Overview  
This section provides general information on ESN assignments and guidelines for working with BST,  
BST’s data vendor, Intrado, and with the E911 Customer on MSAG maintenance. The Wireless Carrier  
must meet with the E911 Customers in the wireless service area and agree on 911 call routing, default  
routing, ESN assignments, and properly assigning MSAG valid street addresses to each ALI database  
record. Intrado will be the point of contact for data processing and data issue resolution. All other issues  
should be directed to the BST Wireless E911 Implementation Manager.  
4.2  
ESN Assignments  
ESN mapping is necessary if calls are to be routed to more than one PSAP within an E911 service area.  
The E911 Customer is responsible for providing boundary information to BST during the conversion to  
E911 and, ongoing, as emergency districts change.  
When an E911system is being implemented, the E911 Customer provides BST the boundaries depicting  
each fire, police and EMS jurisdiction for the E911 service area. After all emergency service boundaries  
have been defined, a different ESN is assigned to each geographical area with the same set of responding  
agencies, i.e., police, fire, and EMS.  
The ESN controls 911 call routing to the proper PSAP and provides emergency agency information  
for each wireline 911 call. The ESN numbers are assigned to the E911 serving area based on the ESN  
numbers available in the E911 tandem central office switch. The ESN for wireless 911 calls are used to  
route the call to the proper PSAP. Due to the geographical variation in service areas of different cell sites,  
it is not currently feasible to display specific emergency agency information for wireless calls. Cell site  
service areas generally do not match existing emergency service boundaries. Creating additional ESN  
boundaries for wireless service areas would be difficult for the E911 Customer and quickly exhaust  
the ESN numbers available.  
The Wireless Carrier must meet with each E911 Customer in the service area and provide wireless service  
coverage areas for each cell site. The E911 Customers must agree on which PSAP should receive 911  
calls based on the coverage area for each antenna face. This may require agreements between political  
jurisdictions if the wireless service area crosses jurisdictional boundaries. In addition to deciding PSAP  
routing, the E911 Customers must also decide on which PSAP should receive all 911 calls where the ANI  
(pANI) is not delivered to the E911 tandem with the call. This condition is known as "ANI failure" and  
must be default routed to a specific PSAP. The E911 Customers should agree and assign ESN numbers  
for both normal and default routing. Wireless Carriers must provide BST the list of PSAPs identified to  
receive default routed calls and the associated trunk groups.  
Wireless Carriers must identify E911 Customers using premises based ALI systems. Premises based  
systems may have special data and interface requirements to enable the dynamic wireless data to be  
included in those systems.  
Page 19  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
MSAG Maintenance and ESN Assignment  
Issue 3, January 6, 2004  
For areas with existing E911 service, existing ESN numbers should be assigned for wireless call routing.  
Any of the currently assigned ESN numbers for a specific PSAP can be selected and placed in the  
corresponding MSAG entries for the cell site addresses as described in the next section. The PSAP should  
identify which ESNs should be used.  
4.3  
MSAG Maintenance and Validation  
The Master Street Address Guide (MSAG) is the portion of the E911 database which contains the address  
and ESN information. The MSAG associates the appropriate ESN to the pseudo-ANI number based on the  
address on the data record provided by the Wireless Carrier.  
It is the responsibility of the E911 Customer to assign, maintain and resolve discrepancies in MSAG data  
for their service area. The E911 Customer is also responsible for providing new address information and  
changes to address information to the BST data vendor for updating to the MSAG database.  
It is the responsibility of all telcos (wireless and wireline) participating in an E911 service area to ensure  
that all data records sent to the E911 host database have an MSAG valid address. Each telco will work  
directly with the E911 Customer to resolve any address discrepancies.  
The Wireless Carrier and E911 Customers must agree on the formatting of the Wireless Carrier data  
records. Some wireless solutions require that each antenna face or PSAP, depending on the wireless  
solution implemented, be assigned an MSAG valid address. The carrier and E911 Customer must work  
together and agree on how the address and cell site sector location information should be formatted and  
to ensure the addresses exist in the MSAG database with the appropriate ESN to route 911 calls to the  
agreed upon PSAP. For some solutions, each antenna face should be assigned unique pseudo-ANI (pANI)  
numbers by the Wireless Carrier to identify the specific cell site sector location. In other solutions, each  
PSAP is assigned unique pANI numbers. Pseudo-ANI numbers must be geographically valid for the E911  
selective routing tandem used to route the calls to PSAPs. The Wireless Carrier must create SOIR data  
records for the cell sites or PSAPs containing the MSAG valid street address previously agreed upon with  
the E911 Customer. If the street address in the SOIR data record is not formatted exactly to match the  
MSAG entries, the SOIR data record will be in error and returned to the Wireless Carrier for correction.  
Refer to tab "TN Database Updates" for detailed information on providing data for the E911 database.  
For some solutions, the address used for the cell site is the address that has been assigned to the structure  
where the tower is located. Or, if the tower is being constructed where there is no existing structure, it is  
the E911 address assigned by the County to the new tower location.  
If all antenna faces for a tower will route calls to the same PSAP, the one address may be shown for each  
pseudo-ANI number associated with that tower. If it is determined that one or more of the pseudo-ANI  
numbers will need to route to a different PSAP, then different addresses for each face must be obtained  
from the E911 Customer. Prior to sending the pseudo-ANI data record to the E911 host, the cell site  
address should be validated with the E911 customer’s MSAG in an effort to minimize error fallout and  
ensure proper ESN assignment for call routing. If the address(es) to be used are not currently in the  
MSAG, then the E911 Customer should send a MSAG ledger document to the BST data vendor to add the  
address to the MSAG database. The pseudo-ANI data records for that cell site should not be transmitted by  
the wireless carrier until the address has been added to the MSAG database.  
Page 20  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
MSAG Maintenance and ESN Assignment  
Some solutions will dynamically provide the cell site location, subscriber call back number, and lat/long  
during 911 call processing. Wireless carriers are still required to provide "static" pseudo-ANI data  
records to the E911 host with MSAG valid addresses. These "static" records will be dynamically updated  
during 911 call processing. The cell site location information provided during the dynamic updates are  
not validated against the MSAG, but the original "static" record provided in the SOIR process will be  
validated against the MSAG.  
Page 21  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
Issue 3, January 6, 2004  
Page 22 - Blank  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
TN Database Updates  
Issue 3, January 6, 2004  
5. TN Database Updates  
5.1  
Overview  
The E911 Telephone Number (TN) database contains data records provided by the different wireline and  
wireless carriers offering service within the E911 service area. For wireline service, the TN records  
contain the subscriber’s telephone number, name, service address, and other information about the fixed  
wireline subscriber location that may be helpful in providing emergency response. Wireless data must  
be treated differently due to the nature of the service and the mobility of the caller’s location. Individual  
wireless subscriber information is not entered into the E911 TN database unless the service is provided to  
a fixed location.  
Phase 1 of FCC Docket 94-102 requires Wireless Carriers to provide the cell site sector location  
information and call back number for each 911 call to allow the PSAP to have a general idea of where the  
call originated and enable them to call the person back in the event the call is disconnected. Phase 2 of the  
FCC Docket requires Wireless Carriers to additionally provide the latitude and longitude coordinates of the  
caller’s location. There are various technological solutions available for Wireless Carriers to meet these  
Phase 1 and 2 requirements.  
Some solutions require that the TN data records provided by the Wireless Carriers define cell site sector  
location information of the geographical area from where the 911 call originated. This is normally done  
by creating TN records that represent each face of each antenna. These records must contain an MSAG  
valid address of the antenna structure and contain cell site sector location information that will help the  
PSAP in locating the general vicinity of the 911 caller. These data records are assigned numbers by the  
Wireless Carrier, sometimes referred to as Pseudo-ANI or pANI numbers. Some technological solutions  
require pANI numbers to be assigned to each antenna face while other solutions require pANI numbers to  
be assigned to each PSAP. In either case, the database records originally provided by the Wireless Carriers  
must contain MSAG valid addresses. Multiple pANI numbers per antenna face or PSAP may also be  
required to handle concurrent 911 calls from the same antenna face. Wireless Carriers must determine the  
E911 database impact and requirements for the technological solution implemented.  
The ten digit call back number of the wireless caller and the latitude/longitude coordinates are normally  
provided to the full featured E911 database by way of a real time update during 911 call processing. This  
interface to the E911 database will vary by the technological solution implemented, but normally involves  
updating the corresponding TN database pANI record to include the ten digit call back number of the  
caller, latitude/longitude, and in some solutions, the cell site sector location information. Concurrent 911  
calls processed by the same antenna face may require multiple pANI numbers and database records to be  
assigned. As the PSAP receives the 911 call and pANI from the Wireless Carrier, the real time update  
takes place and stores the caller’s call back number and latitude/longitude in the TN database pANI  
record. The PSAP equipment will query the E911 database using the number provided with the call. The  
Automatic Location Identification (ALI) returned to the PSAP will include the cell site sector location  
information, latitude/longitude, and the caller’s ten digit call back number. Premises based ALI systems  
may not support pANI database records or a real time update interface. Wireless Carriers should identify  
premises based ALI systems in their service area and explain the impact to the E911 Customers.  
In most cases a Wireless Carrier will offer service in areas already converted to Enhanced 911. All  
pseudo-ANI TN records must be initially loaded into the E911 database and updated on an ongoing daily  
Page 23  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
basis as changes occur. Wireless Carriers will send daily updates to the E911 database via a mechanized  
file transfer. Specifications for mechanized file transfer are described later in the tab. The file must include  
pseudo-ANI TN records for the cell site locations or PSAPs in each E911 serving area. Only cell site or  
PSAP information should be supplied, individual wireless subscriber data should not be provided unless  
the service is provided to a fixed location. Pseudo-ANI numbers must be geographically valid for the  
E911 selective routing tandem used to route calls to PSAPs. Prior to a new NXX being implemented,  
the Wireless Carrier must furnish the NXX Table update form to the BST Wireless E911 Implementation  
Manager. The form and instructions for its completion are included in this tab. The Wireless Carrier would  
begin submitting TN database records, also known as Service Order Interface Records (SOIRs), after the  
MSAG has been updated with cell site addresses and the NXXs have been added to the table.  
The procedures for loading the pseudo-ANI TN records and the daily update process, including technical  
specifications, are provided in this document. All pseudo-ANI TN records must match the E911 MSAG  
database exactly before the record will be loaded to the TN database.  
5.2  
TN Database Daily Updates: Wireless Carrier Responsibilities  
STEP  
ACTION  
1
Obtain official NENA Company  
Identifier and include on each  
pseudo-ANI TN database record.  
2
3
Include every pseudo-ANI TN  
record within each E911 service  
area.  
Include blocks of pseudo-ANI  
numbers for each antenna face (or  
PSAP) to handle concurrent 911  
calls. Pseudo-ANI numbers must  
be geographically valid for the  
E911 selective routing tandem  
used to route calls to PSAPs.  
4
Work directly with Intrado to  
include the Carrier’s Pseudo-ANI  
numbers in the appropriate  
Security Tables and to identify  
the appropriate E2 interface to  
invoke for Phase 2.  
Page 24  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
TN Database Updates  
Issue 3, January 6, 2004  
STEP  
ACTION  
5
Coordinate MSAG updates for the  
cell sites (or PSAPs) submitted  
on Maintenance Ledgers by  
the E911 Customer (including  
naming/numbering street data)  
6
7
Update address on pseudo-ANI  
(TN) records as address data or  
cell site coverage area is modified.  
Any new service and all  
subsequent activity affecting the  
cell site location or PSAP records  
must be updated into the TN  
database. Each record affected  
must be sent individually with the  
appropriate changes. For example,  
if the address changes for a cell  
site which has 3 pseudo-ANI  
telephone numbers, all three(3)  
individual pseudo-ANI (TN)  
records must be updated.  
8
9
Resolve Daily Service Order  
Interface Record (SOIR) update  
errors within 24 hours.  
Update pseudo-ANI (TN) records  
with valid MSAG address  
to resolve 911 call misroute  
conditions.  
10  
Handle special update  
requirements including area  
transfer updates and NPA splits.  
Mass changes must be coordinated  
with BST.  
Page 25  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
STEP  
ACTION  
11  
Three(3) weeks prior to testing  
or implementing a new NXX,  
the Wireless Carrier must  
furnish the NXX Table update  
form to the BST Wireless E911  
Implementation Manager. The  
form and instructions for its  
completion are contained in  
this tab.  
12  
13  
Work with E911 Customer  
to resolve address or ESN  
discrepancies.  
Transfer data files to INTRADO  
to test database processing at  
least one week prior to service  
implementation.  
14  
15  
Identify and resolve special  
requirements for premises based  
ALI systems.  
Provide dynamic update interface  
to populate call back number  
and latitude / longitude in ALI  
database.  
5.3  
E911 Customer Responsibilities  
The on-going maintenance responsibilities for the E911 customer are shown below:  
Notify INTRADO of MSAG changes which affect TN records.  
Resolve Address Verification Requests (AVR) referred by INTRADO/Telco.  
Submit PSAP Inquiry Forms to INTRADO.  
Submit ESN realignments / new ESN requirements to the BST marketing contact.  
Pseudo-ANI (TN) records that do not have MSAG valid addresses or that error for any other reason, will  
go to an error file and will not display if a 911 call is made. The PSAP attendant will see "NO RECORD  
FOUND". Wireless Carriers must ensure all cell site sector locations are defined in the E911 database.  
Page 26  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
TN Database Updates  
Issue 3, January 6, 2004  
Pseudo-ANI records that are not geographically correct for the E911 selective routing tandem may result  
in "NO RECORD FOUND" or a wrong ALI display due to improper NPA translation.  
5.4  
Instructions for NXX Table Update Form  
Table C Instructions for NXX Table Update Form  
Instructions for NXX Table Update Form  
ACTION CODE:  
Circle the CODE that reflects the purpose of the form being  
submitted:  
A - ADD  
Add new information to an existing account, i.e. an additional  
NXX  
C - CHANGE Change information previously submitted, i.e. Contact Name,  
Phone, etc.  
N - NEW  
New Request. Circle NEW if this is the first request OR if  
submitting information for a new state.  
COMPANY NAME:  
Enter the Wireless Carrier company name.  
COMPANY  
ADDRESS:  
Enter the address to be used for correspondence on data issues.  
CONTACT NAME:  
Enter the name of the person responsible for data issues.  
CONTACT PHONE  
NUMBER:  
Enter the full telephone number of the person responsible for data  
issues.  
TELCO ID / OCN:  
Enter the four(4) digit numeric Telco ID or Operating Company  
Number issued by BELLCORE.  
NENA CO.  
IDENTIFIER:  
Enter the 3-5 character Company ID code registered with NENA  
(National Emergency Number Association)  
EFFECTIVE DATE:  
Enter the anticipated date that you will begin sending database  
updates. Please note that this form must be submitted no later  
than three(3) weeks prior to the implementation of testing, not  
submission of data.  
FAX NUMBER:  
Enter the full fax telephone number of the person responsible for  
data issues. Error reports and data correspondence will be faxed  
to this number.  
SERVICE REQUEST  
FOR:  
Circle the state where service will be offered. Please use a  
separate form for each state. (SF = South FL, NF = North FL)  
- continued -  
Page 27  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
Table C Instructions for NXX Table Update Form (continued)  
Instructions for NXX Table Update Form  
NPA / NXX(s):  
List all NPA/NXXs for pANI records in this service area.  
E911 TANDEM CLLI: Enter the CLLI code for the E911 tandem for which 911 calls  
using a pANI with This NXX will be routed to. (The BST  
Wireless E911 Implementation Manager can assist you in  
determining this value). The NPA/NXXs for the pANI records  
must be valid in this E911selective routing tandem.  
Completed forms should be faxed to the BST Wireless E911 Implementation Manager, (205) 977-7692  
(fax).  
Page 28  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
TN Database Updates  
Issue 3, January 6, 2004  
5.5  
NXX Table Update Form  
Figure 1 NXX Table Update Form  
Page 29  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
5.6  
MSAG Formatting  
There are basic guidelines for the format of the address on the incoming TN records in order for the TN  
record to find an exact match to an existing entry in the MSAG database. TN records which do not match  
the MSAG exactly will error back to the Wireless Carrier for resolution and re-transmission of the TN data.  
Wireless Carriers must work with the E911 Customer and agree on cell site address formats and to ensure  
corresponding entries are present in the MSAG database. Cell site sector location information provided by  
some solutions real time during 911 call processing is not validated against the MSAG, although the initial  
TN record added to the database must have an MSAG valid address.  
An example of an MSAG entry in the E911 database is shown below:  
Range  
Prefix  
Directional  
Street  
Name  
Street Suffix  
(Thoroughfare)  
Post  
Directional  
Community  
N
MAIN  
100-399  
ST  
SW  
CHARLOTTE  
The address for the TN record being submitted via file transfer would need to be formatted to match the  
MSAG format shown below:  
5.6.1  
Correct Format  
125 N MAIN ST SW CHARLOTTE  
The SOIR will be formatted as follows:  
House Number = 125  
PREFIX DIRECTIONAL = N  
STREET NAME= MAIN ST SW (includes street name, street suffix, & post directional)  
COMMUNITY = CHARLOTTE  
5.6.2  
Incorrect Format  
125 NORTH MAIN STREET SW CHARLOTTE  
125 N MAIN STREET SW CHARLOTTE  
125 NORTH MAIN ST SW CHARLOTTE  
All of the above examples shown in the incorrect format would have generated an error back to the  
Wireless Carrier.  
Some other basic rules or guidelines for address format are:  
Avoid using punctuation such as periods, commas, and / or ampersands. Punctuation is only  
allowed as part of the street name. (i.e. O’HENRY)  
Standard street suffix (thoroughfare) and/or directional abbreviations must always be used.  
Refer to the valid list of standard abbreviations shown in this tab.  
Page 30  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
TN Database Updates  
Issue 3, January 6, 2004  
5.7  
Standard Street Suffix (Thoroughfare) Designations / Directionals  
The following table outlines the BellSouth street suffix (thoroughfare) abbreviations.  
5.7.1  
BellSouth Street Suffix (Thoroughfare) Abbreviations (Table)  
Table D BellSouth Street Suffix (Thoroughfare) Abbreviations (Table)  
T / F Abbrev  
ALY  
Description  
ALLEY  
T / F Abbrev  
LN  
Description  
LANE  
ANNEX  
ANX  
ARC  
AV  
LOOP  
MKT  
MNR  
MT  
LOOP  
MKT  
ARCADE  
AVENUE  
BOARDWALK  
BEND  
MANOR  
MOUNT  
MOUNTAIN  
NECK  
BDWK  
BEND  
BLK  
BLVD  
BR  
MTN  
NK  
BLOCK  
BOULEVARD  
BRANCH  
BOTTOM  
BYPASS  
PASS  
PATH  
PD  
PASS  
PATH  
BTM  
BYP  
POND  
PARK  
PK  
PIKE  
CIR  
CIRCLE  
PKE  
PKWY  
PL  
PARKWAY  
PLACE  
PLAZA  
PIER  
CRES  
CRK  
CRSG  
CSWY  
CT  
CRESCENT  
CREEK  
CROSSING  
CAUSEWAY  
COURT  
PLZ  
PR  
PROM  
PT  
PROM  
CTR  
CV  
CENTER  
POINT  
PRIVATE DRIVE  
ROAD  
PVT DR  
RD  
COVE  
DRIVE  
DR  
ESPLND  
EST  
ESPLANADE  
ESTATE  
RDG  
RDWY  
ROW  
RT  
RIDGE  
ROADWAY  
ROW  
EXPWY  
EXT  
EXPRESSWAY  
EXTENSION  
ROUTE  
- continued -  
Page 31  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
Table D BellSouth Street Suffix (Thoroughfare) Abbreviations (Table) (continued)  
T / F Abbrev Description T / F Abbrev Description  
RUN  
FRK FORK RUN  
FREEWAY  
GARDEN  
HARBOR  
HILL  
FRWY  
GRDN  
HBR  
HL  
SQ  
SQUARE  
STREET  
STATION  
TERRACE  
THRUWAY  
TRAIL  
ST  
STA  
TER  
THRWY  
TR  
HLS  
HOLW  
HT  
HILLS  
HOLLOW  
HEIGHT  
HEIGHTS  
HIGHWAY  
ISLAND  
JUNCTION  
LANDING  
LAKE  
TRC  
TRNPK  
VLG  
WAY  
WHF  
WK  
TRACE  
TURNPIKE  
VILLAGE  
WAY  
HTS  
HWY  
ISL  
WHARK  
WALK  
JCTN  
LDG  
LK  
YARD  
YD  
When "Avenue" precedes a street name that is a letter or number, it is not considered a street suffix  
designation and is, therefore, spelled in full. Refer to examples shown below. When the name of a street is  
an alphabetic character, the word "Street" is spelled in full. Refer to the examples shown below.  
Directional words, North (N), South (S), East (E), West (W), North East (NE), North West (NW), South  
East (SE), South West (SW) are abbreviated except when used as lettered streets. Refer to the examples  
shown below.  
Street Examples:  
511  
600  
411  
512  
622  
1ST  
733  
733  
985  
109  
735  
33RD  
23  
25  
60  
STREET A NE  
SOUTH RD  
1ST STREET  
1ST AV  
N 33RD TER  
NW 5TH CT  
E STREET  
AVENUE K  
NORTHEAST BLVD  
1ST NE  
22ND PL SW  
5.8  
Standard Location Designations  
A portion of the TN data record layout described in this tab includes a data field for specific location  
information. This field is not edited on incoming SOIRs for content, however, there are certain format  
standards that the PSAP customer is accustomed to seeing on wireline database records. For wireless  
Page 32  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
TN Database Updates  
Issue 3, January 6, 2004  
data records, the location data field may be used to define the cell site sector geographical service area.  
Wireless Carriers should work with the E911 Customer and agree on the TN data record formats including  
use of the LOCATION (LOC) data field.  
There are four(4) levels of identifiers used for different types of information. Those identifiers are shown  
as follows in the appropriate hierarchical level:  
Level 1: BLDG, WNG, PIER  
Level 2: FLR  
Level 3: APT, RM, LOT, SLIP, SUIT, UNIT  
Level 4: DES  
These identifiers may be used uniquely or combined. The identifiers and associated data cannot exceed the  
size limitation of the data field. Some examples are shown below:  
EXAMPLE 1: APT 2-B  
EXAMPLE 2: BLDG 6 APT 2-B  
EXAMPLE 3: FLR 6 SUIT 2-B  
EXAMPLE 4: DES NEXT TO POOL  
EXAMPLE 5: .25 MI NE OF MAIN ST (wireless example)  
5.9  
Updating the TN Database  
The Wireless Carrier must provide data records for the E911 database as described in this tab. Data  
records are validated for proper format and to ensure the address information is defined in the MSAG  
database. The TN data record includes a "Function of Change" data field to indicate the type of processing  
that should be performed for this record. Processing rules for some of the "Function of Change" data  
values are described below:  
Function of Change  
Data Value:  
Processing Rules:  
I
Insert this data record into the database. There must not be another data  
record with the same TN (pANI) or calling number in the database or the  
insert will fail.  
C
Change the corresponding record in the database. A data record must  
already exist in the database with the same TN (pANI) or calling number.  
The entire database record is replaced by the new data record, therefore  
the incoming record must have all appropriate data fields populated.  
D
E
Delete the corresponding record in the database. A data record must  
already exist in the database with the same TN (pANI) or calling number.  
Delete the corresponding record in the Error File. No processing is  
performed against the E911 database.  
Page 33  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
5.10 Service Order Interface File Specifications  
This section describes BellSouth Service Order Interface file specifications and Service Order Interface  
Record (SOIR) layouts. BellSouth SOIR layouts resemble the 512 character NENA Version 2 layouts for  
Data Exchange with some BellSouth specific differences. Files for updating the BellSouth E911 database  
must adhere to the following file specifications:  
1. All files contain a single file header record, followed by one or more data records, followed by  
a single file trailer record. All records are 512 characters in length. Layouts are described in  
this tab.  
2. All data must be in ASCII format.  
3. All data must be in upper case.  
4. Required fields must contain valid data. Required fields are indicated in the layouts with  
capitalized field names.  
5. Optional fields may be space filled, unless otherwise noted, if data values are not available.  
Optional fields are indicated in the layouts with lower case field names.  
5.11 SOIR File Data Record Layout  
5.11.1  
Table: SOIR File Data Record - BellSouth 512 Character Format for Data  
Exchange  
Page 34  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Issue 3, January 6, 2004  
Wireless E911 Guide  
TN Database Updates  
Page 35  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
Page 36  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Issue 3, January 6, 2004  
Wireless E911 Guide  
TN Database Updates  
Page 37  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
Page 38  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Issue 3, January 6, 2004  
Wireless E911 Guide  
TN Database Updates  
Page 39  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
5.12 SOIR File Header Record Layout  
5.12.1  
Table: SOIR File Header Record - BellSouth 512 Character Format for Data  
Exchange  
Position  
Bytes  
Type  
BellSouth Description  
Always "UHL "  
Field Name  
HEADER  
A
1-5  
5
INDICATOR  
N
AN  
N
EXTRACT DATE  
COMPANY NAME  
CYCLE COUNTER  
6-11  
12-61  
62-67  
6
50  
6
Date formatted as MMDDYY  
New customers start at 000001;  
each subsequest file cycle is  
incremented by 1 until reaching  
999999  
AN  
A
county identifier  
state  
68-71  
72-73  
74-93  
94-96  
97  
4
2
AN  
N
general use  
20  
3
release number  
format version  
reserved  
N
1
AN  
98-511  
512  
414  
1
END OF RECORD  
Always "*"  
5.13 SOIR File Trailer Record Layout  
5.13.1 SOIR File Trailer Record - BellSouth 512 Character Format for Data Exchange  
Position  
Bytes  
Type  
BellSouth Description  
Always "UHL "  
Field Name  
TRAILER  
A
1 - 5  
5
INDICATOR  
N
AN  
N
EXTRACT DATE  
COMPANY NAME  
RECORD COUNT  
6 - 11  
12 - 61  
62 - 67  
6
50  
6
Date formatted as MMDDYY  
Does not include header and trailer  
record  
AN  
reserved 98 - 511  
END OF RECORD  
414  
1
512  
Always "*"  
Page 40  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
TN Database Updates  
Issue 3, January 6, 2004  
5.14 Mechanized File Transfer  
The Service Order Interface Record (SOIR) is the TN database information that is mechanically  
transmitted to INTRADO for inclusion in the E911 database. If the Wireless Carrier data file passes all  
validity checks, it will be processed to the E911 database.  
PLEASE NOTE: THE PREFERRED METHOD OF DATA TRANSMISSION IS  
CONNECT:MAILBOXTM, A PRODUCT OFFERED THROUGH INTRADO. OTHER METHODS  
OF DATA TRANSMISSION MAY BE SUPPORTED BY INTRADO. PLEASE COORDINATE  
THROUGH THE BST WIRELESS IMPLEMENTATION MANAGER AND INTRADO.  
Establishment of CONNECT MAILBOXTM to the INTRADO system will be coordinated through  
the BST Wireless E911 Implementation Manager / INTRADO. Once established, support for Connect  
MailboxTM will be handled by INTRADO.  
Connect Mailbox™ Client for Windows requires the following minimum system requirements:  
Microsoft Windows Version 3.1 or later  
4MB of Memory  
2MB of Hard Disk Space (3MB During Installation)  
VGA or Better Card with a Color Monitor  
Hayes Compatible Modem with full Carrier Detect Support  
Utilizes Z Modem as the interface protocol  
INTRADO will work with customers that wish to use an alternative client product, so long as that  
product supports X-Modem, Z-Modem, or Kermit.  
5.15 Mechanized File Confirmations  
When an file is sent, a check will be made to determine if any errors exist in the header, data, or trailer  
records. If no errors are detected, a positive response will be sent via mechanized fax to the Wireless  
Carrier. The positive confirmation detail record is shown below:  
Page 41  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
TN Database Updates  
CG-EWCG-001  
Issue 3, January 6, 2004  
If an error is detected, an error confirmation notice will be sent via mechanized fax. The following error  
conditions will be detected:  
Record Count Mismatch  
Cycle Mismatch  
Header Record Not Found  
Trailer Record Not Found  
The error confirmation notice is shown below:  
Page 42  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
6. TN Errors and Corrective Action  
6.1  
Overview  
This section provides procedures for correcting errors that are generated when updates to the E911  
database do not pass database edits. Records that fail the edits will be sent daily in an error report to the  
Wireless Carrier. Errors are sorted in TN order and an error code is provided on each error to aid the  
Carrier in identifying the erroneous information.  
Wireless Carrier error records will not be manually corrected or processed to the E911 database. A  
corrective SOIR must be issued to update the TN information in the E911 database and / or to delete the  
error record as appropriate. The records which error must be corrected as quickly as possible for the  
wireless data to be included in the E911 database.  
The Wireless Carrier is expected to resolve the errors by:  
Issuing Address Verification Requests (AVR) to the E911 Coordinator for MSAG changes.  
· Issuing corrective SOIRs within 24 hours of receipt.  
6.2  
Electronic Error Delivery  
Errors are delivered to the Wireless Carrier’s Intrado Connect Mailbox. Confirmation files and Statistics  
files with information on error records and records that have processed successfully are generated .  
6.2.1  
The Confirmation Report  
The Confirmation reports list the daily update records that are in error, along with a three-digit error code.  
The error code descriptions and corrective action are provided in this tab. (Note: Only records in error  
are included on this report. If the record has successfully processed and posted in the ALI database  
it will not be included on this report.)  
Example of the Confirmation report is shown below. The record layout for electronic errors is in NENA  
Version 2 format. There is a three (3) digit error code located at the end of the record in reserved fields  
378-380 followed by an "E" to indicate the record is in error.  
Page 43  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
Table F Confirmation Report Fields and Descriptions  
FIELD  
DESCRIPTION  
FUNCTION CODE Valid codes are:  
: I=Insert  
C=Change  
P=Main account delete  
E=Error delete  
U=Unlock  
M=Migrate  
NPA  
Three(3) digit number of Calling Number  
Seven(7) digit number of Calling Number  
CALLING  
NUMBER  
HOUSE NUMBER House Number. The field should be spaced filled if no house  
number is available.  
HOUSE NUMBER House number extension (e.g. /2). The field should be spaced  
SUFFIX  
filled if no suffix applies.  
PREFIX  
DIRECTIONAL  
Leading street direction prefix. The field should be spaced filled  
if no prefix applies. Valid entries: N, S, E, W, NE, NW, SE, SW  
STREET NAME  
STREET SUFFIX  
Valid street address of the Calling Number.  
Valid street abbreviation.  
POST  
DIRECTIONAL  
Trailing street direction suffix. The field should be spaced filled  
if no suffix applies. Valid entries: N, S, E, W, NE, NW, SE, SW  
- continued -  
Page 44  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
Table F Confirmation Report Fields and Descriptions (continued)  
COMMUNITY  
NAME  
Valid service community of the street name/house number as  
designated by the MSAG.  
STATE  
Alpha state abbreviation  
LOCATION  
Additional address information (free formatted) describing the  
exact location of the Calling Number (e.g. APT 718).  
CUSTOMER  
NAME  
Subscriber name associated with the Calling Number.  
CLASS OF  
SERVICE  
Value of:  
8=Moble (pre-Phase 1)  
G=Wireless Phase 1  
H=Wireless Phase 2 (with X,Y)  
TYPE OF  
SERVICE  
Value of:  
0=Not Non-pub or FX  
1=FX not Non-pub  
2=Not used  
3=Non-pub, not FX  
4=Non-pub, FX  
5=Not Used  
EXCHANGE  
MAIN NPA  
Local Exchange Carrier exchange identifier for the serving  
telephone office of the customer.  
Three(3) digit area code of the Main Number associated with  
the Calling Number.  
MAIN NUMBER  
Seven(7) digit telephone number of the Main Number associated  
with the Calling Number.  
ORDER NUMBER Service order number for the activity establishing this record.  
EXTRACT DATE  
COUNTY ID  
Date for which the record was created in the form MMDDYY  
County Identification Code (usually the FIPS code).  
NENA registered Company Identification Code.  
COMPANY ID  
SOURCE ID  
Indicates whether data is part of the initial database creation  
process or part of the daily update process.  
Daily = Space  
Initial Load = C  
ZIP CODE  
ZIP+4  
Postal Zip Code  
Postal Zip Code Extension  
- continued -  
Page 45  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
Table F Confirmation Report Fields and Descriptions (continued)  
GENERAL USE  
Mutually used by data exchange partners to pass information  
not defined in previous fields.  
CUSTOMER  
CODE  
Code used to uniquely identify customer.  
COMMENTS  
Optional notes may be displayed at PSAP  
Longitude / X coordinate  
Latitude / Y coordinate  
X COORDINATE  
Y COORDINATE  
Z COORDINATE  
CELL ID  
Structure elevation  
Identification number indicating a geographic region of cellular  
coverage.  
SECTOR ID  
TAR CODE  
RESERVED  
Sub set / section of a cell.  
Taxing Area Rate Code  
Positions 356-511 are reserved. Positions 378-380 are used by  
Intrado to populate the three(3) digit error code (e.g. 709).  
END OF RECORD Always an asterisk (*)  
6.2.2  
The Statistics Report  
The Statistics Report provides information about the processed daily update records The top portion of the  
report shows the number of records received, followed by the number of records in error, and the number  
of inserts, changes and deletes that were successfully processed. The bottom portion of the report lists all  
the valid error codes for the BellSouth region and the number of errors with that error code. Example of  
the Statistics Report is shown below.  
Page 46  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
Figure 2 The Statistics Report  
6.2.3  
Distribution of Daily Reports  
Intrado forwards daily reports electronically each business day. The Saturday and Sunday Confirmation  
and Statistical reports are included in Monday’s cycle. To retrieve reports after sending a file: (1) return  
Page 47  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
to Intrado Connect, (2) click on the transfer key, and (3) click on the download key and automatically  
retrieve your reports.  
6.2.4  
TN Error Deletion  
When a SOIR is processed, a check is made to determine if an error record exists in the error file with the  
same TN on the SOIR. If an error record other than a U (Unlock) or M (Migrate) exists, the error record  
will be deleted and the TN will be processed to the E911 Database if the subsequent SOIR is successful. If  
an error other than for a U (Unlock) or M (Migrate) SOIR occurs while processing the subsequent SOIR, a  
new error record will be written to the error file, thus only one SOIR record should ever be present in the  
error file for any given TN.  
TN error records requiring deletion will be deleted by issuing a subsequent SOIR with an FOC = "E".  
When the FOC = "E" on the subsequent SOIR, the error file will be searched for a match on TN and, if  
found, the error will be deleted from the error file. SOIRs sent with a FOC of "E" are used ONLY to  
delete a TN from the error file and are not processed to a matching TN embedded record in the E911  
database. An example of a situation where an "E" FOC might be used is to delete a TN error record where  
the original SOIR had been with an invalid TN.  
6.3  
Error Codes and Error Descriptions  
The following error codes may be generated and sent via fax.  
Note:  
If an error code is received that is not reflected in this guide, please refer to the BellSouth  
Wireless E911 Implementation Manager.  
Table G Error Codes and Error Descriptions  
ERROR  
100  
DESCRIPTION  
Customer Code not numeric  
101  
NPA/NXX not valid  
103  
Main TN not numeric  
Name Missing  
105  
106  
Address Missing  
107  
House number contains invalid characters  
House number is too long  
Street direction is too long  
Street Direction is invalid  
Street name is too long  
108  
109  
110  
111  
- continued -  
Page 48  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
Table G Error Codes and Error Descriptions (continued)  
DESCRIPTION  
Street name has invalid characters  
ERROR  
112  
113  
114  
115  
116  
120  
126  
701  
702  
704  
705  
709  
710  
711  
712  
713  
729  
730  
731  
732  
735  
738  
739  
741  
751  
752  
753  
754  
755  
Community Name is too long  
Community Name has invalid characters  
Service class invalid  
House Number Suffix is too long  
TN is incorrectly formatted  
Invalid type of service  
House number is not in MSAG range  
Record already exists, insert not allowed  
Record does not exist for delete  
Main record not found for delete  
Street not found in MSAG  
customer code doesn’t match on change  
Customer code or street name does not match on delete  
Record does not exist for change  
TN and Main Account mismatch  
Change failed, completion date conflict with disconnect file  
Insert failed, completion date conflict with disconnect file  
Change failed, completion date conflict with TN database  
Record in disconnect with greater completion date  
Delete failed, record in TN database has same completion date  
MSAG update caused TN error  
Invalid house number format  
Update not allowed; flagged for PS / ALI  
Invalid Function Code  
Invalid Company ID  
No record exists on Unlock  
No record exists on Lock  
Unable to migrate a locked record  
- continued -  
Page 49  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
Table G Error Codes and Error Descriptions (continued)  
DESCRIPTION  
Company Code mismatch on Change  
ERROR  
756  
757  
Company Code mismatch on Delete  
Company ID mismatch on Unlock  
758  
760  
Lock exceeded number of retries  
762  
U or M Function Required for LNP  
Error record does not exist for delete  
Company Code mismatch on error delete  
Unlock failed; Main account has sublines  
Record exists with a Company Code mismatch  
781  
782  
783  
792  
6.4  
Error Code and Corrective Action  
Table H Error Codes and Corrective Action  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
100  
Customer Code not A character other than 999 is sent in  
Issue corrective SOIR for errored TN  
numeric  
the customer code field of the incoming showing 999 in the customer code field  
record  
101  
NPA / NXX not  
valid  
The incoming record contains a NPA /  
NXX combination that is not valid E911  
database tables  
Determine if NPANXX is correct and  
If correct, submit NXX Table  
UpdateForm to INTRADO and  
resubmit I FOC SOIR for TN  
If incorrect, submit E FOC SOIR  
to delete TN error and submit new  
SOIR for correct TN  
103  
Main TN not  
numeric  
The main telephone number shown on  
the SOIR is non-numeric  
Submit E FOC SOIR to delete invalid  
TN error and resubmit new SOIR for  
correct TN  
105  
106  
Name missing  
The customer name field on the incoming Issue corrective SOIR for errored TN  
SOIR is blank with correct customer name  
Address missing  
The address field on the incoming SOIR Issue corrective SOIR for errored TN  
is blank with correct MSAG valid street address.  
- continued -  
Page 50  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
107  
House number  
contains invalid  
characters  
The house number on the incoming  
SOIR contains characters other than  
alpha or numeric.  
Determine the correct MSAG valid  
house number and submit corrective  
SOIR for errored TN  
108  
109  
110  
111  
112  
113  
House number is too The house number on the incoming  
Determine the correct MSAG valid  
house number and submit corrective  
SOIR for errored TN  
long  
SOIR contains too many characters  
Street direction is  
too long  
The directional prefix for the street on  
the incoming SOIR contains too many  
characters  
Determine the correct MSAG valid street  
name and submit corrective SOIR for  
errored TN  
Street direction is  
invalid  
The directional prefix for the street on  
the incoming SOIR contains invalid  
characters  
Determine the correct MSAG valid street  
name and submit corrective SOIR for  
errored TN  
Street name is too  
long  
The street name with thoroughfare and  
suffix on the incoming SOIR contains  
too many characters  
Determine the correct MSAG valid street  
name and submit corrective SOIR for  
errored TN  
Street name has  
invalid characters  
The street name for the street on  
the incoming SOIR contains invalid  
characters  
Determine the correct MSAG valid street  
name and submit corrective SOIR for  
errored TN  
Community name is The community name on the incoming  
Determine the correct MSAG valid  
community name for the street address  
and submit corrective SOIR for errored  
TN  
too long  
SOIR contains too many characters  
114  
Community  
name has invalid  
characters  
The community name for the street on  
the incoming SOIR contains invalid  
characters  
Determine the correct MSAG valid  
street name and community and submit  
corrective SOIR for errored TN  
115  
116  
Service Class  
Invalid  
The incoming record has an invalid class Submit corrective SOIR with valid class  
of service of service  
House number  
suffix is too long  
The house number suffix on the incoming Determine the correct house number  
SOIR contains too many characters  
suffix and submit corrective SOIR for  
errored TN  
120  
126  
TN is incorrectly  
formatted  
The TN on an incoming SOIR is not  
made up of ten numeric characters.  
Check the NPANXX in the record for all  
numeric and no blanks. Submit E FOC  
with NPANXX of errored TN to delete  
error record then re-submit SOIR with  
correct TN  
Invalid type of  
service  
The type of service on an incoming  
SOIR contains a type of service value  
other than 0 or 3  
Submit SOIR with valid type of service,  
0 or 3  
- continued -  
Page 51  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
701  
House number is not The house number on the incoming  
Determine if the street range exists in  
in MSAG range  
SOIR is not found in the house number the MSAG.  
range for the street and community on  
the MSAG  
If the house number on the SOIR is  
correct but is not in the MSAG, issue  
an AVR to the E911 coordinator to  
update the MSAG house number  
range  
If the house number on the SOIR  
is incorrect issue a SOIR with the  
correct house number that matches  
the MSAG house number range  
702  
Record already  
exists, insert not  
allowed  
The SOIR has a FOC of I and attempts to Using the image of the existing record  
insert a TN into the database that already that is sent with the error, determine if  
exists  
the existing database TN is incorrect or  
if the SOIR error is incorrect.  
If the existing database TN is  
incorrect, resubmit the SOIR with  
a FOC of C to overlay the existing  
data with the SOIR data  
If the error record TN is incorrect,  
resubmit a SOIR with FOC of E  
to delete the errored record and  
then resubmit another SOIR for the  
correct TN  
704  
705  
Record does not  
exist for delete  
The TN for the incoming SOIR does not Determine if the account has been  
exist in the database disconnected:  
If disconnected, submit E FOC  
SOIR to delete error record  
If error record was issued for invalid  
TN, submit E FOC SOIR to delete  
error record and resubmit new D  
FOC SOIR for correct TN  
Main account record The main account TN on the incoming  
not found for delete SOIR does not exist in the database  
Determine if the account has been  
disconnected:  
If disconnected, submit E FOC  
SOIR to delete error record  
If error record was issued for invalid  
TN, submit E FOC SOIR to delete  
error record and resubmit new D  
FOC SOIR for correct TN  
- continued -  
Page 52  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
709  
Street not found in  
MSAG  
The directional prefix, street name,  
community or state on the incoming  
SOIR cannot be found in the MSAG  
Determine if the street exists in the  
MSAG:  
If the prefix, street, community and  
state shown on the error record is not  
found in the MSAG issue an AVR  
to the E911 Coordinator to have the  
MSAG updated (Note: Once the  
MSAG is updated the error record  
will process and load.)  
If the prefix, street, community or  
state on the error record is incorrect  
and a valid MSAG entry exists,  
resubmit a corrective SOIR  
710  
711  
Customer code  
doesn’t match on  
change  
The customer code shown for the  
incoming SOIR doesn’t match the  
customer shown on the existing database code of 999 or blanks  
record  
Determine the correct customer code and  
resubmit corrective SOIR with customer  
Customer code or  
The customer code, directional prefix,  
Using the image of the existing record  
street name does not street name and suffix on the incoming  
that is sent with the error, determine if  
the TN in the database should be deleted  
match on delete  
SOIR does not match the TN in the  
database  
If the existing database TN is should  
be deleted, resubmit a correct D  
FOC SOIR  
If the existing database TN should  
not be deleted and the error record  
TN is incorrect, resubmit a SOIR  
with FOC of E to delete the errored  
record and then resubmit another  
SOIR for the correct TN  
712  
Record does not  
exist for change  
The incoming C FOC SOIR TN is not  
found in the TN database  
Determine if the error record TN is valid:  
If error record TN is valid, no action  
is necessary. Processing in the TN  
database will change the C FOC to  
an I FOC and insert the record.  
If the error record TN is invalid,  
resubmit a D FOC SOIR to delete  
the TN from the TN database and  
then resubmit the C FOC SOIR for  
the correct TN  
- continued -  
Page 53  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
713  
TN and main  
account mismatch  
The main account shown on the incoming Submit D FOC on existing database  
SOIR doesn’t match the main account  
shown on the database record.  
record to delete TN with different main  
account and IFOC with appropriate  
changes on corrective SOIR showing the  
TN and the main account as the same  
number.  
729  
Change failed,  
completion date  
conflict with  
An incoming SOIR contains a  
completion date that is equal to or earlier changed  
that the completion date of the record  
that has been deleted  
Determine if TN is valid and should be  
If TN is valid submit corrective  
SOIR with changes showing a  
completion date that is later than the  
disconnect date  
disconnect file  
If the TN is invalid, submit E FOC  
to delete error record  
730  
731  
732  
Insert failed,  
completion date  
conflict with  
disconnect file  
The incoming insert SOIR is for a TN  
that has been disconnected and the date have posted prior to the disconnect:  
on the insert SOIR is the same or prior to • If yes, issue E FOC SOIR to delete  
Determine if the insert record should  
the date of the disconnected TN.  
the error record  
If no, issue resubmit I FOC SOIR  
with completion date later than  
disconnect date  
Change failed,  
completion date  
conflict with TN  
database  
The incoming change SOIR has a  
completion date that is the same or  
prior to the date of the TN shown in the  
database  
Determine the correct sequence of order  
activity for the TN:  
If the error record change is correct,  
resubmit C FOC SOIR with later  
completion date  
If error record is incorrect, submit E  
FOC SOIR to delete error record  
Record in  
The incoming change SOIR has a  
completion date that is the same or prior activity for the TN:  
to the date of the TN in the disconnect  
file  
Determine the correct sequence of order  
disconnect with  
greater completion  
date  
If the error record change is correct,  
resubmit C FOC SOIR with later  
completion date  
If error record is incorrect, submit E  
FOC SOIR to delete error record  
- continued -  
Page 54  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
735  
Delete failed, record The incoming delete SOIR has a  
in TN database has completion date that is the same  
Determine the correct sequence of order  
activity for the TN:  
same completion  
completion date of the TN in the  
database  
If the error record delete is correct,  
resubmit D FOC SOIR with later  
completion date  
If error record is incorrect, submit E  
FOC SOIR to delete error record  
738  
MSAG update  
caused a TN error  
This error is not generated as a result of Contact INTRADO Data Analyst for  
incoming SOIR but is generated when  
INTRADO performs a MSAG update  
that deletes the address shown on the TN  
record  
resolution.  
739  
741  
751  
Invalid house  
number format  
The incoming SOIR contain special  
or invalid characters for an alpha or  
alphanumeric house number  
Determine correct house number for TN  
and resubmit correct SOIR  
Update not allowed, The TN on the incoming SOIR belongs Submit E FOC SOIR to delete error  
flagged for PS-ALI to a TN that is shown for a PS / ALI or record  
/ PinPoint  
PinPoint PBX customer  
Invalid function  
code  
The incoming SOIR contains an invalid Resubmit the SOIR with valid function  
function code. Valid function codes are: code  
C = CHANGE  
D = DELETE  
I = INSERT  
E = DELETE ERROR  
U = UNLOCK  
M = MIGRATE  
752  
753  
Invalid company ID The incoming SOIR has an invalid  
NENA ID  
Resubmit the SOIR with a valid NENA  
ID  
No record exists on The TN on the incoming unlock SOIR  
Determine if the correct TN was sent on  
the error record:  
unlock  
does not exist in the TN database  
If correct, submit IFOC SOIR for  
TN and then resubmit U FOC SOIR  
If incorrect, submit E FOC SOIR to  
delete error record  
- continued -  
Page 55  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
754  
No record exists on The TN on the incoming Migrate SOIR Determine if the error record TN is valid:  
lock  
does not exist in the database.  
If error record TN is valid, no action  
is necessary. Processing in the TN  
database will change the M FOC to  
an I FOC and insert the record.  
If the error record TN is invalid,  
resubmit a E FOC SOIR to delete  
the error record  
755  
756  
Unable to migrate  
locked record  
The TN in the database for the incoming Determine if the error record TN is valid:  
Migrate SOIR shows a locked status  
If valid, contact the donor company  
to issue an unlock SOIR. The error  
record will process once the unlock  
SOIR is received.  
If the error record TN is invalid,  
resubmit a E FOC SOIR to delete  
the error record  
Company code  
The NENA ID on the incoming C FOC Determine if the error record NENA ID  
mismatch on change SOIR does not match the NENA ID of  
the TN record in the database  
is valid:  
If valid, contact the donor company  
to issue an unlock SOIR and  
resubmit the SOIR as a M FOC with  
the appropriate changed data  
If the error record NENA ID is  
invalid, resubmit a E FOC SOIR to  
delete the error record  
757  
Company code  
The NENA ID on the incoming D FOC Determine if the error record NENA ID  
mismatch on delete SOIR does not match the NENA ID of  
the TN record in the database  
is valid:  
If valid, contact the donor company  
to issue an unlock SOIR and  
resubmit the SOIR as a M FOC  
to migrate the record and the a  
subsequent D FOC to delete the TN  
record  
If the error record NENA ID is  
invalid, resubmit a E FOC SOIR to  
delete the error record  
- continued -  
Page 56  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
TN Errors and Corrective Action  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
758  
Company code  
The NENA ID on the incoming U FOC Determine if the error record NENA ID  
mismatch on unlock SOIR does not match the NENA ID of  
the TN record in the database  
is valid:  
Contact the donor company to issue  
an unlock SOIR  
Resubmit the SOIR as a M FOC to  
migrate the record  
Resubmit a subsequent U FOC to  
unlock  
If the error record NENA ID is invalid,  
resubmit a E FOC SOIR to delete the  
error record  
760  
Lock exceeds  
number of retries  
The 755 error for a Migrate order is  
unsuccessful for 30 days  
No action required. INTRADO will  
take appropriate action based on dial  
tone ownership as shown in NPAC.  
Carrier will receive notification of action  
taken for the TN on the weekly NPAC  
Validation report.  
762  
781  
NENA ID required The incoming U or M SOIR does not  
Submit E FOC to delete SOIR record  
from error Resubmit correct U or M  
SOIR with valid NENA ID  
for U or M FOC  
SOIR  
have a valid three(3) to five(5) digit  
NENA ID  
Error record does  
not exist for delete  
The incoming E FOC TN cannot be  
found in the error database  
Verify the TN on the E FOC SOIR record  
matches the TN in the error database:  
If TN matches, no action required.  
The errored record has been  
previously deleted or resolved.  
If TN doesn’t match re-submit E  
FOC SOIR for correct TN  
782  
Company code  
mismatch on error  
delete  
The incoming E FOC TN contains a  
NENA company ID that does not match SOIR record matches the TN in the error  
the NENA ID shown on the TN in the  
error database  
Verify the NENA ID on the E FOC  
database:  
1. If NENA ID matches, no action  
required. The errored record has  
been deleted or resolved.  
2. If NENA ID doesn’t match  
re-submit E FOC SOIR for correct  
NENA ID  
- continued -  
Page 57  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
TN Errors and Corrective Action  
Issue 3, January 6, 2004  
Table H Error Codes and Corrective Action (continued)  
Error Code  
Error Message  
Occurs when. . .  
Corrective Action for . . .  
783  
Unlock failed; main The incoming U FOC TN is in the  
account has sublines database as a main account with other  
TNs shown as sublines but no U FOC  
There are two possible corrective actions:  
1. If all accounts shown with the main  
account are to be unlocked submit a  
U FOC for each TN associated with  
the original main account.  
2. If all accounts are not to be unlocked  
submit a D FOC for the existing  
subline showing the erroneous main  
account and then resubmit an I FOC  
for the TN shown with the Calling  
number TN as the main account.  
was received on the sublines(Note: Since  
the main account and Calling number TN  
are to be the same TN, this error would  
be received only if the TN in the database  
had been submitted with a different main  
account on a previous SOIR.)  
792  
I FOC record exists The TN shown on the I FOC SOIR has  
Verify the TN on the errored record:  
with a different  
Company ID  
a different NENA Company ID than the  
existing TN in the database  
If the TN is correct and is to be  
migrated, submit an E FOC on the  
error record SOIR and then resubmit  
a corrective SOIR with appropriate  
record changes as a M FOC  
If the TN on the error record is  
incorrect, submit an E FOC to delete  
the error record.  
6.5  
Compiled Error Report  
As stated earlier in this tab, it is imperative that all errors must be corrected as soon as possible. Until  
an error is corrected, the information will either be in the database incorrectly or not in the database at  
all. This could result in E911 calls being directed to the wrong PSAP and having to be transferred to  
the appropriate PSAP.  
In addition to sending the daily errors, a compiled error report will be forwarded to each Carrier on  
a monthly basis in an effort to ensure that the Carrier is aware of all unresolved daily errors. The error  
report is sorted in street name order to aid in resolving address errors.  
Page 58  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
PSAP Inquiries  
Issue 3, January 6, 2004  
7. PSAP Inquiries  
7.1  
Overview  
E911 is a critical emergency service. Therefore, any address condition that interferes with a caller reaching  
the appropriate PSAP, and having an accurate display, must be corrected as quickly as possible. For this  
reason, the E911 Inquiry Form has been developed as a tool for the PSAP attendants to use in reporting  
address problems encountered with the E911 system.  
Wireless Carriers will receive E911 Inquiry Forms from the E911 Customer (county) or INTRADO.  
Inquiry forms should be logged by the Carrier. A PSAP Inquiry Log form and instructions are provided in  
this tab. Once the inquiry has been handled, it should be returned to the originator. If the originator of  
the inquiry is unknown, the form should be returned to INTRADO.  
The E911 Inquiry Form is divided into five (5) sections. (sample on the following page)  
GENERAL:  
DATABASE:  
REPAIR:  
information relating to the PSAP attendant preparing the form  
problems relating to the ALI data displayed at the PSAP  
problems relating to the network or equipment  
input of additional pertinent information  
response section  
COMMENT:  
ACTION:  
Page 59  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
PSAP Inquiries  
CG-EWCG-001  
Issue 3, January 6, 2004  
7.2  
PSAP Inquiry Form  
Figure 3 PSAP Inquiry Form  
Page 60  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
PSAP Inquiries  
Issue 3, January 6, 2004  
7.3  
PSAP Inquiry Log  
The following is an example of a PSAP Inquiry Log and instructions for completion:  
Figure 4 PSAP Inquiry Log  
7.3.1  
Instructions for Completing PSAP Inquiry Log  
1.  
2.  
3.  
Serial Number  
Date Received  
Enter the serial number assigned by the E911 Customer  
Enter the date the Inquiry was received  
NPA / Telephone  
Number  
Enter the NPA and telephone number being referred on  
the Inquiry  
4.  
5.  
911 Call Date  
Action taken  
Enter the date of the 911 call  
Enter the action taken to handle the inquiry  
- continued -  
Page 61  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
PSAP Inquiries  
CG-EWCG-001  
Issue 3, January 6, 2004  
- continued -  
6.  
7.  
Date Returned  
Response Code  
Enter the date the Inquiry was returned to the originator  
Enter the appropriate response code as follows:  
Trouble Cleared, Enter date  
No trouble found  
Referred to repair  
7.4  
Inquiry Flow  
Inquiry Forms that involve the "Database Reason For Inquiry" will be forwarded to the Carrier for  
investigation and resolution. The inquiry form should be logged by the wireless carrier and the disposition  
noted. A PSAP Inquiry Log form and instructions are provided in this tab. Once the inquiry has been  
resolved, it should be returned to the originator. Inquiries received from INTRADO should be returned to:  
FAX: 888-778-7876  
INTRADO, Inc.  
BellSouth NDSC  
1601 Dry Creek Drive  
Longmont, CO 80503  
7.5  
Investigation Procedures  
ALI Record Not Found  
7.5.1  
The Carrier should investigate to determine why the pseudo-ANI record is not in the database. If the TN is  
found on the NRF Report, check to see if the TN is a valid pseudo-ANI number. If valid, a SOIR should  
be sent to insert the pseudo-ANI TN record. If it is determined that the TN record is in the error file, a  
corrective SOIR should be sent to resolve the error. Once resolved, check action: "Trouble cleared as of  
(enter the date) and return the form to the originator.  
7.5.2  
Wrong ALI Display Of:  
The E911 Customer will complete the "Should Be" section detailing correct information on the  
E911 Inquiry form, when the ALI displays incorrect information. The Carrier should investigate the  
discrepancies and make the appropriate database updates as described below.  
7.5.3  
Address — Community — Location  
Investigate as necessary with the E911 Customer to determine the correct address including a check for  
MSAG validity. Update the address information for the pseudo-ANI record by submitting a corrected  
SOIR with the valid information. Once resolved, check action: "Trouble cleared as of (enter the date)" and  
return the inquiry to the originator. If no change is needed to the pseudo-ANI TN record, check action:  
"Investigation Completed. No action required as of (Enter the date)" and return the inquiry to the originator.  
Page 62  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
PSAP Inquiries  
Issue 3, January 6, 2004  
7.5.4  
ESN  
Investigate as necessary with the E911 Customer to determine the correct address. Update the address  
information for the pseudo-ANI TN record by submitting a corrected SOIR with the valid information.  
Once resolved, check action: "Trouble cleared as of (enter the date)" and return the inquiry to the  
originator. If it is determined that the pseudo-ANI address is correct, check action: "Trouble Referred  
to Other on (Enter date)". These Inquiry Forms should be returned to INTRADO for investigation. If it  
is determined that a correction in the pseudo-ANI TN record is necessary, INTRADO will contact the  
wireless carrier for a new SOIR to be sent.  
7.5.5  
Misroutes  
A misroute indicates the E911 call routed to the wrong PSAP. Routing is determined by the ESN associated  
with the matching address record in the MSAG database. Investigate as necessary with the E911 Customer  
to determine the correct address. The E911 Customer should be able to assist with identifying the MSAG  
valid address and the associated ESN to route the calls to the desired PSAP. Update the address information  
for the pseudo-ANI TN record by submitting a corrected SOIR with the MSAG valid information. Check  
action: "Trouble cleared as of (enter the date)" and return the inquiry to the originator. If it is determined  
that the pseudo-ANI address is correct, check action: "Trouble Referred to Other on (Enter date)". These  
Inquiry Forms should be returned to INTRADO for investigation. If it is determined that a correction in the  
pseudo-ANI TN record is necessary, INTRADO will contact the wireless carrier for a new SOIR to be sent.  
7.6  
Blank Forms  
Blank Forms may be reproduced locally as needed. An example of a PSAP Inquiry Log follows.  
Page 63  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
PSAP Inquiries  
CG-EWCG-001  
Issue 3, January 6, 2004  
7.6.1  
PSAP Inquiry Log  
Figure 5 PSAP Inquiry Log  
Page 64  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
No Record Found (NRF) Processing  
8. No Record Found (NRF) Processing  
8.1  
Overview  
A No Record Found (NRF) condition occurs when a subscriber calls 911 and no database information  
exists for the cell site pseudo-ANI telephone number. The purpose of an NRF investigation is to:  
identify the reason a NRF occurred  
take corrective action to update the database as necessary  
There are several reasons a record may not be available for retrieval:  
the record may be in the Error File  
the record may not have posted between the time the cell site has been "turned up" and the  
time the record is processed and entered into the database  
the update SOIR file transmission may have failed to complete successfully  
the record may not have been sent to be inserted into the database  
It is imperative the Wireless Carriers ensure all appropriate pseudo-ANI records are successfully posted to  
the E911 database before conducting 911 call testing or turning up service. Wireless 911 calls processed  
without corresponding pseudo-ANI records in the database will result in NRFs at the PSAP and manual  
investigation by the INTRADO Data Integrity Unit.  
8.2  
No Record Found (NRF) Processing  
Each PSAP in the region is served by a primary ALI processor and secondary ALI processor. These  
processors alternate responses to ALI retrieval requests (bids) coming from the PSAP. Therefore, audit  
data, including NRF data, is found on the audit files from both the primary and secondary ALI processors.  
This data is combined to produce one NRF report.  
8.3  
No Record Found (NRF) Report Schedule  
The NRF report will be generated every day, Sunday through Saturday. This report provides information  
about NRFs for investigation. NRF details will appear on the report once the appropriate carrier is  
identified.  
The following schedule has been developed for the generation of daily NRF reports. The NRF report will  
be faxed daily (Monday-Friday) to the appropriate Carrier or data provider.  
Fri / Sat / Sun’s NRFs NRF reports distributed on Monday  
Monday’s NRFs  
NRF report distributed on Tuesday  
- continued -  
Page 65  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
No Record Found (NRF) Processing  
Issue 3, January 6, 2004  
- continued -  
Tuesday’s NRFs  
Wednesday’s NRFs  
Thursday’s NRFs  
NRF report distributed on Wednesday  
NRF report distributed on Thursday  
NRF report distributed on Friday  
8.4  
No Record Found (NRF) Report Layout  
The NRF report is separated by Wireless Carrier and by state and sorted by telephone number. A summary  
is provided for numbers of NRFs. Following is an example of the NRF report:  
The NRF Report will include:  
Company:  
Run Date:  
State:  
Wireless Carrier name in report heading  
Date and time of NRF report creation  
Two(2) character state identifier  
TN:  
Pseudo-ANI number, including NPA, which resulted in NRF  
Bid Date:  
Date, time, and day of week of PSAP query (bid) that resulted in  
NRF  
County Name:  
PSAP ID:  
Name of couty for the PSAP receiving NRF  
Two(2) character State identifier, 8 - 10 character PSAP name and  
four(4) character PSAP ID of agency that received the NRF  
Status:  
Status of referral: OPENED, PENDERR, REF - LEC  
Total number of NRFs  
Total NRFs:  
8.5  
NRF Investigation  
The Wireless Carrier will only be required to investigate and correct NRFs that are not found in the E911  
database or if the record was in the error file at the time of the 911 call.  
The Wireless Carrier should:  
Determine if the TN should be in the E911 database.  
Page 66  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
No Record Found (NRF) Processing  
If the TN should be in the database, a SOIR should be submitted to insert the TN record or to  
resolve an outstanding error in the error file.  
Research why the record was not in the database and take action to prevent further NRF  
occurrences.  
Advise INTRADO to close the NRF if the TN has been disconnected or not needed in the  
database  
When all NRFs on a report have been resolved, the Wireless carrier should file the NRF report and retain  
for a period of one(1) year from the date of the 911 call that resulted in the NRF.  
Status codes are assigned to each TN on the No Record Found Report. All NRFs are initially assigned as  
“OPENED”. The status can be changed by the INTRADO Data Analyst as resolutions are completed.  
“CLOSED” will be assigned as soon as the investigation is complete and the E911 database is updated.  
The Analyst will assign “REF — LEC” when the investigation cannot be completed in the time frame  
which the Analyst began their work. This status would be typical when additional information or action  
is required from the Carrier.  
The STATUS notations are described as:  
Pending — In Error File (PENDERR) — Telephone number was found in the error file and has been  
referred to Wireless Carrier for resolution of the error condition.  
Referred to LEC (REF — LEC) — The NRF has been referred to the Carrier for resolution. The  
Telephone number is not in the TN database or the error file.  
If the record is found in the E911 database, the event will be “CLOSED” and the NRF will not be  
forwarded to the Carrier. If the TN is found in the error file, the status will be changed to “PENDERR” and  
will be included in the NRF report. The Carrier should resolve the outstanding error to prevent further  
NRFs from occurring. If the record is not found in the E911 database or error file, the status will be  
changed to REF — LEC and the report provided to the Carrier for resolution.  
Page 67  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
Issue 3, January 6, 2004  
Page 68 - Blank  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
NENA Company Registration Process  
9. NENA Company Registration Process  
9.1  
NENA Cmpany ID Registration Service  
Wireless Service Providers and the FCC mandate placed upon them for delivery of location information  
and the wireless subscribers callback number generates a need in 9–1–1 service for identification of the  
relationship between the telecommunication company and telephone number. This need is driven by  
two factors:  
Data Base Management  
supports tracking in 9–1–1 data record processing and quality management by both the 9–1–1  
service provider and the data source Company  
administration and management of error processes with multiple data providers  
Speed of identification by PSAPs  
when a PSAP needs to quickly contact the originating Company for line interrupt, call trace,  
and other emergency actions, the typical use of the NPA-NXX for Company identification  
will no longer be effective  
an identifier that can be applied to each telephone number record is needed to support  
individual telephone number portability  
a Company ID that associates 24 Hour access numbers with each telecommunications  
company is needed for the above functions  
9.2  
Purpose of the NENA Company ID Registration Service  
A national Company ID for 9–1–1 service will allow the PSAP to identify the Wireless Carrier serving the  
caller, and to determine the 24 x 7 number of that Carrier for emergency contact needs. In the Company  
ID database description, (below), each Carrier would identify one ID for each service area supported by  
the same 24 x 7 contact number. If the Carrier has a national switching center that would take calls form  
PSAPs for emergency assistance, the Carrier would need only one Company ID.  
A national 9–1–1 Company ID registration point was recommended by NENA Standards work groups in  
1996, and subsequent work has been directed to making this service a part of the NENA Web Site, for  
general access. This approach is intended to support standardization of 9–1–1 Company Identifiers, and to  
supply a single point of administration for the Company ID file content and update.  
Use of the Internet allows telecommunications companies, state, county, city, and PSAP to access and use  
the ID information. In addition, the design of this service allows each telecommunications company to  
assign multiple IDs, so that individual service areas and 24 hour contact information can be identified.  
Note:  
Use of the previously established NECA code was considered for the above functions.  
However, NECA codes are numeric and not as immediately interpretable as are alpha IDs. In  
addition, NECA codes do not apply to certain types of 9–1–1 call providing entities, such as  
resellers and PBX operators, that are needed in 9–1–1 applications.  
Page 69  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
NENA Company Registration Process  
Issue 3, January 6, 2004  
9.3  
Use of the Service  
For your convenience, NENA has created an online Company Identifier Data Base Input Form that you  
can either print out and fill in or you can complete it online, hit the submit button, and you will be  
invoiced for the fee. The NENA Web page address is http://www.nena9–1–1.org/companyid. Click  
here to access website  
If you choose to print it out and fill it in, please send it or fax it to the address / fax below:  
FAX: 614–933–0911  
Address: 422 Beecher Road, Columbus, OH 43230  
An annual fee of $100 will apply for each ID registered by NENA.It is recommended that the Company  
Identifier be one that a public safety telecommunicator can readily interpret. A 3–5 character contracted  
spelling of the Company name is usually possible. The Company’s choice for an Identifier is likely to be  
accepted by NENA, provided that it is not already registered by another Company.  
9.4  
Instructions  
The chosen Company ID code structure should be alpha ONLY using upper case characters. All IDs in the  
data base must be unique and the must be limited to 3–5 characters.  
The 24 hour by 7 day telephone number should be a number that will allow the safety agencies to contact  
the Carrier’s switching support center for line interrupts, call traces, or other emergency contact reasons.  
The area covered by the 24 x 7 number may be national, regional, a single state, or other combinations.  
Please concisely indicate coverage area in the “Area Supported” field by the use of 2–character state  
abbreviations, or “ALL” to indicate all US States. This will allow searching the “Area Supported” field  
for those Companies registered in a given area.  
Please call NENA at 800–332–39011 if you have any questions.  
9.4.1  
Input Form  
Company Identifier Data Base  
Page 70  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
NENA Company Registration Process  
Figure 6 Input Form  
Page 71  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
Issue 3, January 6, 2004  
Page 72 - Blank  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Reconciliation  
Issue 3, January 6, 2004  
10. Reconciliation  
10.1 Overview  
Wireless Carriers or their agents are granted an extract of their E9-1-1 data annually for database  
reconciliation. The BellSouth Implementation Manager offering a yearly reconciliation of data sends a  
letter and extract request form to each company in the first quarter of the year. This document outlines the  
procedures used to request a data extract for the purpose of reconciliation.  
10.2 Notification and Scheduling  
Complete the "9-1-1 Database Reconciliation Extract Request" form that was attached to the annual  
letter and return it to the INTRADO Continuous Improvement Analyst via mail or fax. The INTRADO  
Continuous Improvement Analyst will contact you and negotiate an extract date.  
10.3  
The Wireless Carrier or their agent is responsible for:  
Requesting the Data Extract.  
Reconciling their data by comparing the extract file with data currently maintained within  
their carrier database.  
Sending updates as required to the E9-1-1 database via Service Order Interface (SOI)  
INTRADO is responsible for:  
Scheduling Data Extracts.  
Determining Extract dates.  
Page 73  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
Issue 3, January 6, 2004  
Page 74 - Blank  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
A. BellSouth Wireless E9–1–1/SS7 Interconnection Guide  
A.1 BellSouth Wireless E-9–1–1/SS7 Interconnection Guide  
This document is intended to provide an explanation of how SS7/ISUP trunks can be used for delivery of  
Wireless E9-1-1 calls in the BellSouth E9-1-1 serving area.  
NOTE: The need to provide and maintain the reliability and integrity of E9-1-1 service is a top priority.  
Therefore, deployment/implementation of SS7/ISUP trunking for E9-1-1 is subject to due date negotiation  
between BellSouth and any interconnection customer. The migration onto this newer signaling technology  
cannot be subject to the Customer Desired Due Date (CDDD) processes.  
NOTE:Failure to deploy SS7/ISUP signaling correctly for Wireless E9-1-1 may result in significant service  
interruptions or undesirable anomalies, including but not limited to a total inability to complete the call.  
NOTE: This document uses acronyms and terms as described in the NENA Master Glossary of E9-1-1  
Terms available at http://www.nena9-1-1.org in the NENA Recommended Technical Standards section.  
Click here to access this information.  
NOTE: All interconnecting carriers need to be familiar with and in compliance with TR 73554 Issue  
D, December 2002 (or later), BST GUIDELINES TO TECHNICAL PUBLICATION GR-905-CORE. The  
BST CCS Network has its own particular architectural variations and technological capabilities. TR 73554  
is a supplement to GR-905.) TR 73554 is available through the appropriate BellSouth Interconnection  
Services Account Representative.  
Before any new device is connected to the BellSouth Common Channel Signaling Network (CCSN) it  
must meet the following two requirements:  
1. It must have undergone and passed MTP Level 2 and Level 3 protocol testing by Telcordia or  
other suitable independent lab testing facility  
2. It must have undergone and passed interoperability testing at the Bellsouth Technology  
Assessment Center (BTAC) in Birmingham  
This does not include Level 3 protocol testing on new links from known switch types (#5ESS, DMS100,  
etc.). SS7 is a mature technology and, over the years, there have been only rare occasions of mismatches  
at the Level 3 protocol. These differences have typically been non-traffic affecting differences in timer  
settings. For these reasons BellSouth has taken the position that the continued investment in time and Level  
3 protocol test equipment would be imprudent. However, any other type of devices (e.g., PBXs, VMS host  
machines, packet switching devices, etc.) that are not routinely connected to the network, will be asked to  
undergo lab testing with a "standards" lab such as Telcordia or BTAC. We acknowledge there may be some  
carriers who don’t undergo such lab testing, and we reserve the right to remove them from our CCSN  
without prior notice if their equipment causes us or any of our customers a problem.  
A.2 Executive Summary  
BellSouth provides Wireless Carriers with connectivity to its Enhanced 9-1-1 Selective Routing network so  
they may meet their (FCC mandated) responsibility to provide Enhanced 9-1-1 service to their customers.  
Page 75  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
NENA (National Emergency Number Association) has published a Technical Information Document:  
"NENA 05-501 Technical Information Document on SS7 Guidelines for MSC to Selective Router  
Connectivity." (available at: http://www.nena9-1-1.org/9-1-1TechStandards/tech_info_docs.htm ). That  
document identifies many of the possible call setup parameter options that can occur within the enhanced  
9-1-1 network on an SS7/ISUP trunk between a Wireless Service Provider’s MSC and an Enhanced 9-1-1  
selective router. The use of SS7 signaling greatly reduces post dial delay and also provides more reliable  
ANI delivery when compared to traditional MF signaling. (Throughout this document the term SS7  
is to be construed to mean SS7/ISUP signaling.)  
As a high level statement, the intent of this BellSouth Wireless E9-1-1/SS7 Interconnection Guide is to list  
the call setup parameters shown in the NENA 05-501 TID that are supported by BellSouth, so wireless  
carriers can chose the one(s) that best meet their needs.  
This documentation will identify, to the Wireless Service Provider, the parameters they need to populate  
in their 9-1-1 Signaling System #7 Initial Address Message (SS7 IAM) to provide Phase 1 or Phase 2  
E9-1-1 service to their customers.  
NOTE: Wireless service providers who desire to take advantage of the SS7 signaling format for E9-1-1  
service should contact their BellSouth Account Representative to begin a test and installation plan or to  
discuss technical information.  
This document identifies only SS7 signaling options supported for E9-1-1 trunk interconnection. SS7  
interconnection for E9-1-1 is a service choice made by the wireless carrier, and does not limit, reduce, or  
eliminate the current option to deliver E9-1-1 calls to BellSouth using traditional CAMA-MF or FG-D  
signaling protocols.  
A.2.1  
Identified Options:  
Section 4 of the NENA 05-501 document describes the various combinations of the call setup parameters.  
Three Call Signaling Scenarios representing the four common Wireless E9-1-1 Solutions defined in  
Section 3 of the NENA 05-501 TID are as follows:  
Call Signaling Scenario (1) ESRK delivery  
Call Scenario 2, CBN and ESRD Delivery - WITHOUT a hybrid  
Call Scenario 2, CBN and ESRD Delivery - WITH a hybrid  
Call Signaling Scenario (3) CBN, ESRD, and GLP (Geodetic Location Parameter) delivery  
NOTE:This BellSouth document further clarifies those NENA 05-501 descriptions by distinguishing  
between Call Signaling Scenario (2) CBN and ESRD Delivery without a hybrid architecture at the SR; and  
Call Signaling Scenario (2) CBN and ESRD Delivery WITH a hybrid architecture at the SR. The NENA  
05-501 authors elected to allow companies (like BellSouth) who offer a hybrid solution to define their  
hybrid solution in their own documents. This document does that for BellSouth’s hybrid offering.  
A.2.1.1  
Call Scenario 1, ESRK Delivery  
BellSouth supports the following options as listed in table 4-1 (ESRK Delivery) in "NENA 05-501  
Technical Information Document on SS7 Guidelines for MSC to Selective Router Connectivity":  
Page 76  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
A1, A2, A3, B1, B2, and B3 are supported using the E911_STD trunk options on the BellSouth Nortel  
DMS E9-1-1 Tandem (Referred to as NDET throughout this document.). For all practical purposes these  
calls appear to be like wireline calls at the NDET.  
A.2.1.2  
Call Scenario 2, CBN and ESRD Delivery - WITHOUT a hybrid: (WITHOUT a  
hybrid architecture at the Selective Router)  
BellSouth supports the following options as listed in table 4-2 (CBN and ESRD Delivery) in "NENA  
05-501 Technical Information Document on SS7 Guidelines for MSC to Selective Router Connectivity":  
A1, A2, B1, B2, C1, C2, D1, D2 are supported using the E911_STD or WRLS_STD trunk options on  
the BellSouth NDET. The strongly preferred, and recommended, trunk option is WRLS_STD because it  
is seen as the standard for wireless E9-1-1 calls.  
A3, B3, C3, D3 are supported using the E911_STD trunk option only.  
E1, E2, F1, F2, G1, G2, H1, H2, I1, I2, J1, J2, K1, K2, L1, L2 are supported using ONLY the WRLS_CLD  
option on the NDET.  
Option I3 is NOT SUPPORTED on the NDET platform.  
NOTE: Call scenario 2 is sometimes called "20 digits to the PSAP". In Phase 1 it was known as Callpath  
Associated Signaling (CAS). In Phase 2 (according to J-STD-036-A) it is known as Non-Callpath  
Associated Signaling (NCAS).  
A.2.1.3  
Call Scenario 2, CBN and ESRD Delivery - WITH a hybrid: (WITH a hybrid  
architecture at the Selective Router)  
BellSouth supports the following options as listed in table 4-2 (CBN and ESRD Delivery) in "NENA  
05-501 Technical Information Document on SS7 Guidelines for MSC to Selective Router Connectivity":  
A1, A2, B1, B2, C1, C2, D1, D2 are supported using the E911_STD or WRLS_STD trunk options on  
the BellSouth NDET. The strongly preferred, and recommended, trunk option is WRLS_STD because it  
is seen as the standard for wireless E9-1-1 calls.  
A3, B3, C3, D3 are supported using the E911_STD trunk option only.  
E1, E2, F1, F2, G1, G2, H1, H2, I1, I2, J1, J2, K1, K2, L1, L2 are supported using ONLY the WRLS_CLD  
option on the NDET.  
Option I3 is NOT SUPPORTED on the NDET platform.  
NOTE: Call scenario 2 is sometimes called "20 digits to the PSAP". In Phase 1 it was known as Callpath  
Associated Signaling (CAS). In Phase 2 (according to J-STD-036-A) it is known as Non-Callpath  
Associated Signaling (NCAS).  
NOTE: Call Scenario 2, CBN and ESRD Delivery - WITH a hybrid is available on ALL of BellSouth’s  
(64) NDETs.  
A.2.1.4  
Call Scenario 3, CBN, ESRD and GLP Delivery: (GLP = Geodetic Location  
Parameter)  
BellSouth does not support this method at this time due to the inability of the selective router platform and  
the MSC platforms to use and/or route on the GLP, or to support ISDN PSAPs in an industry standard  
manner.  
Page 77  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
A.2.2  
Database Steering Options  
The NENA 05-501 document also defines data base steering options that are used to interconnect the  
wireless carrier’s network with the BellSouth Enhanced 9-1-1 ALI Database systems. BellSouth will  
support the data steering options referred to as "E2" and "E2+", as defined in BellSouth Technical  
Reference TR 73610, and in the Intrado technical document "BellSouth SR/ALI to MPC Interface  
Specifications for TCP/IP Implementation of TIA/EIA/J-STD-036 E2" (Contact Intrado for the latest issue  
supported on BellSouth ALI Data Base systems).  
WARNING  
The MOST IMPORTANT thing this document can relay is the  
following:  
IT IS IMPERATIVE THAT ALL PARTIES UNDERSTAND WHAT  
IS REQUIRED TO MAKE WIRELESS E9-1-1 WORK PROPERLY  
IN AN SS7/ISUP ENVIRONMENT.  
Any questions or doubts that the WSPs Network/Translations  
Engineer may have, should be brought to the attention of BellSouth  
BEFORE proceeding with any provisioning steps. The WSPs  
BellSouth Account Representative will arrange to get answers to any  
questions from the appropriate BellSouth Network/Translations  
E9-1-1 personnel.  
The WSP (or their agent) must have the ALI database pre-populated  
with records matching the pANIs (ESRD/ESRK) they will use, or the  
call will default route, and the PSAP will receive a "no record found"  
rather than the expected location information.  
Failure to deploy SS7/ISUP signaling correctly for Wireless E9-1-1  
may result in significant service interruptions or undesirable  
anomalies, including but not limited to, a total inability to complete  
the call.  
A.3 Scope and introductory text  
A.3.1  
Wireless E9-1-1 Service Introduction  
Wireless E9-1-1 service enables Wireless Service Providers (referred to as WSP or WSPs throughout this  
document) to comply with the FCC mandate for providing an Enhanced 9-1-1 service to wireless users that  
is somewhat equivalent to the service provided to landline users. FCC Docket 94-102 requires WSPs to  
make E9-1-1 service available in two phases. The first phase of 94-102 (Phase I, initially effective April 1,  
1998) requires each WSP to provide a Public Safety Answering Point (PSAP) with the caller’s Call Back  
Number (CBN), and a "general" location of the caller equivalent to the serving cell site or sector, but only  
if the PSAP requests Phase I service in writing and is capable of receiving and utilizing the data.  
That general location is represented by a 10 digit number generally known as a psuedoANI (pANI), but  
also known as Emergency Services Routing Digits (ESRD) or Emergency Services Routing Key (ESRK)  
based on the type of wireless E9-1-1 solution in use. From the BellSouth E9-1-1 Tandem’s point of  
Page 78  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
view, this general location number is simply used to determine which PSAP should receive the call.  
This document will use the term pANI generically, except where it is more appropriate to use ESRD or  
ESRK. Other industry documents specify which precise term is applicable for different situations, but  
that distinction is beyond the scope or intention of this document.  
The second phase of 94-102 (Phase II, initially scheduled to begin October 1, 2001) requires each WSP to  
be able to deliver a wireless 9-1-1 call with Phase I requirements, plus longitude and latitude coordinates  
of the caller, accurate to within 150 meters or less, depending on the technology used for location  
determination. Originally, WSPs were to begin to make wireless Phase II available by October 1, 2001 to  
qualified PSAPs that requested Phase II service by April 1, 2001. After April 1, 2001, the WSPs were to  
begin to make Phase II available to qualified PSAPs within six months of a receiving their request for Phase  
II service. The FCC modified the original start date in late 2001. Generally speaking, Phase 2 began in late  
2002, and it is expected to roll out continually until ubiquitous coverage is provided across all of the USA.  
The "BellSouth Wireless E9-1-1 Solution" (aka: WLS911) currently supports Phase I service by allowing a  
wireless carrier to send the caller’s CBN and the pANI directly to a BellSouth Nortel DMS E9-1-1 Tandem  
switch (NDET) using dedicated FG-D Multi-Frequency signaling trunks. This Solution can also serve  
as the underlying architecture to support a WSP in becoming Phase 2 compliant, if they chose to deploy  
their own architecture in a manner that accommodates delivery of longitude and latitude coordinates to a  
PSAP through the BellSouth ALI database, once they are obtained over an "E2" interface, as described in  
J-STD-036-A (BellSouth will also support the modification of E2 generally known as E2+).  
In the BellSouth hybrid scenario the CBN and pANI would continue to be transported through the  
BellSouth E9-1-1 Network to the PSAP using WLS911, and the longitude and latitude coordinates  
would be obtained through the BellSouth ALI database, across an E2 interface provided by the WSP.  
BellSouth does not provide the E2 interface transport facilities. There are also other technical/architectural  
"Solutions" available in the industry for a WSP to become Phase 1 and/or Phase 2 compliant. Those  
solutions are beyond the scope of this document, but BellSouth does permit such alternative Solutions  
to be used via our Network.  
NOTE: J-STD-036-A describes Phase II standards in greater detail. BellSouth will support E2  
functionality in the manner fully described in the Intrado document "BellSouth SR/ALI to MPC Interface  
Specifications for TCP/IP Implementation of TIA/EIA/J-STD-036 E2" (Contact Intrado for the latest issue  
supported on BellSouth ALI Data Base systems.  
Partly due to the E9-1-1 industry’s migration into Wireless Phase II, and also due to other recent and future  
(anticipated) technological developments in the E9-1-1 industry in general, BellSouth will begin (in 2004)  
to allow the use of Common Channel Signaling (CCS) technology to support Wireless E9-1-1 service.  
NOTE: This capability will be thoroughly tested in each instance before it is made available for use.  
A.4 Reason for Revision  
If this document is revised, this section will summarize the change(s).  
A.5 Organization of this Document  
This document is to be used in conjunction with the following publications:  
Page 79  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
TR 73554 Issue D, December 2002 (or later), BST GUIDELINES TO TECHNICAL  
PUBLICATION GR-905-CORE (Telcordia document GR-905-CORE specifies the interfaces  
required to interconnect out-of-band Common Channel Signaling (CCS) networks that utilize  
the Signaling System Number 7 (SS7) protocol provided by a different CCS Network. The  
BST CCS Network will have its own particular architectural variations and technological  
capabilities. Therefore, the intent of the TR 73554 is to supplement GR-905.)  
NENA 05-501, NENA Technical Information Document on SS7 Guidelines for MSC to  
Selective Router Connectivity, Original Issue, October 2002. The NENA 05-501 Technical  
Information Document (TID) provides a reference for Wireless Service Providers (WSP) on  
the basics of E9-1-1 SS7 translations to the Selective Router (SR). It was issued to address  
the obvious need for guidance on SS7 translations between the MSC and the SR. It presents  
a broad view of the E9-1-1 related SS7 translations that exist today (2002), and possible  
ones for the future.  
NOTE: This BellSouth Wireless E9-1-1/SS7 Interconnection Guide document references  
configurations detailed in the NENA 05-501 SS7 Guidelines for MSC to Selective Router  
Connectivity TID. The two documents should be used together to gain a more clear  
understanding of the requirements surrounding using SS7/ISUP supported trunking for  
wireless E9-1-1 in BellSouth’s E9-1-1 serving area.  
J-STD-036-A Enhanced Wireless 9-1-1 Phase 2. This Joint Standard has been issued  
and approved by the Telecommunications Industry Association and the Alliance for  
Telecommunications Industry Solutions, June 2002. This joint standard defines the messaging  
required to support information transfer to identify and locate wireless emergency services  
callers.  
NENA 03-006, RECOMMENDED STANDARDS FOR E9-1-1 CALL CONGESTION  
MANAGEMENT. This NENA document provides additional details regarding how to  
establish the proper quantity of Wireless trunks into an E9-1-1 Tandem based on generally  
accepted "best practices".  
"BellSouth SR/ALI to MPC Interface Specifications for TCP/IP Implementation of  
TIA/EIA/J-STD-036 E2" (Contact Intrado for the latest issue supported on BellSouth ALI  
Data Base systems). This is an Intrado document that fully describes the Intrado SR/ALI E2  
messaging interface. This is the interface that BellSouth is using!  
Specific "Wireless E9-1-1" interconnection requirements for the CCS network interconnection architecture  
and the interface protocol for call setup are defined in this BellSouth Wireless E9-1-1/SS7 Interconnection  
Guide document. This document will define the interconnection requirements in the BellSouth E9-1-1  
Network when using SS7/ISUP in concert with one of the various Wireless E9-1-1 options identified in J  
STD-036-A, and in the NENA 05-501 and 03-006 documents.  
The MOST IMPORTANT thing this document can relay is the following:  
IT IS IMPERATIVE THAT ALL PARTIES UNDERSTAND WHAT IS REQUIRED TO  
MAKE WIRELESS E9-1-1 WORK PROPERLY IN AN SS7/ISUP ENVIRONMENT.Any  
questions or doubts that the WSPs Network/Translations Engineer may have, should be brought to  
the attention of BellSouth BEFORE proceeding with any provisioning steps. The WSPs BellSouth  
Account Representative will arrange to get answers to any questions from the appropriate BellSouth  
Network/Translations E9-1-1 personnel.  
Page 80  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
The WSP (or their agent) must have the ALI database pre-populated with records matching the pANIs  
(ESRD/ESRK) they will use, or the call will default route, and the PSAP will receive a "no record found"  
rather than the expected location information.  
A.6 Wireless CCS Network Interconnection Architecture  
A.6.1  
General Interconnection Information  
Signaling System 7 - Common Channel Signaling using ISDN User Part protocol (SS7/ISUP) for Wireless  
E9-1-1 is only supported for Type 2C trunks (interconnected directly to a BellSouth E9-1-1 tandem  
switch) as defined in GR-145-CORE. The Type 2C trunks shall be dedicated for Wireless E9-1-1 traffic.  
There will always be a minimum of two trunks per trunk group. Ideally, they should be provisioned in  
a diverse manner so that a single network fault or incident would not render both trunks inoperable. In  
sizing the new SS7/ISUP TG, Wireless Network Planners should build toward providing a P.01 Grade  
Of Service (GOS) (see NOTE below).  
NOTE:  
The NENA document, NENA 03-006, RECOMMENDED PROCEDURES FOR E9-1-1 CALL  
CONGESTION MANAGEMENT provides additional details regarding how to establish the proper  
quantity of Wireless trunks into an E9-1-1 Tandem based on generally accepted "best practices". ( 03-006  
is pending publication on the NENA web site at http://www.nena9-1-1.org as of March 25, 2003)  
If a WSP elects to provide direct MF trunks to be used as backup in the event of an SS7 failure, BellSouth  
can support such an arrangement. If MF backup is used, the quantity of MF trunks will be determined by  
Wireless Network Planning practices, but in no case will it be less than two trunk members per Trunk Group  
(TG). Since CAMA-MF only delivers a 7 digit pANI, CAMA-MF Trunk Groups are to be provisioned on a  
per NPA basis. FG-D MF signaling allows for delivery of a full 10 digit pANI number, along with a full 10  
digit CBN, so FG-D MF Trunk Groups can be provisioned to carry multiple NPAs as long as all default  
routed calls should route to the same PSAP. CAMA-MF requires NPA specific trunk groups so the NDET  
can "build" a 10 digit pANI upon receipt of only 7 digits across the NPA specific trunk group.  
All trunk groups (primary and back-up) must take into account that only ONE default PSAP can be  
associated with an E9-1-1 Trunk Group. It is imperative that the Wireless Network Planner keep this in  
mind when determining how many trunk groups will be needed for service in any given area.  
THAT DECISION CAN HAVE SIGNIFICANT IMPACT ON PSAPs.  
As mentioned above, when sizing the new SS7/ISUP TG, Wireless Network Planners should build toward  
providing a P.01 GOS. The size of the backup MF TGs shall be a minimum of two, but otherwise may  
not necessarily achieve a P.01 GOS, since they are not expected to be frequently called upon. They are  
after all - ONLY INTENDED FOR BACKUP!  
A.6.2  
Wireless Phase 1 vs. Phase 2  
It is VERY important that all parties understand that differences of opinion (currently) exist in regard to  
the meaning of certain terms used in the Wireless E9-1-1industry at large. Most are just slight nuance  
differences, but if two or more people use the same term to mean different things it causes confusion. This  
section will attempt to clarify how BellSouth interprets certain Phase 1 and Phase 2 terms, especially in  
Page 81  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
regard to how they are used in this document. There may be significant impact to Wireless E9-1-1 service  
if the Wireless Engineer fails to understand these differences during establishment of initial interconnection  
using SS7/ISUP for wireless E9-1-1.  
Generally speaking, the term CAS (Callpath Associated Signaling) means the same thing in Wireless  
Phase 1 and Phase 2. In each case, ALL of the FCC mandated data is carried directly from the WSPs  
MSC through the BellSouth E9-1-1 Tandem to the PSAP. In Phase 1, CAS includes two (significant)  
data elements, the CBN and the pANI. In Phase 2, CAS includes those two elements as well as the  
longitude/latitude coordinates of the caller (aka: x, y) when they dialed 9-1-1 on their wireless device.  
Phase 2 CAS requires SS7/ISUP between the MSC and the BellSouth E9-1-1 Tandem, and ISDN to the  
PSAP. As of 3Q2002 Phase 2 CAS is NOT supported in BellSouth. (ISUP Initial Address Message  
Parameter Contents for CAS are fully described in J-STD-036-A, Annex-D, Section D.1.3)  
In Phase 1, NCAS includes two (significant) data elements: the pANI and the CBN. In Phase 1 NCAS,  
ONLY the pANI is sent directly from the WSPs MSC through the BellSouth E9-1-1 Tandem to the PSAP  
(with the callpath). The CBN is added to the existing pANI record in the BellSouth ALI-DB by the WSP  
or their agent during call setup, using an out-of-band signaling path (hence NCAS). The updated pANI  
ALI record including the CBN & cell/sector address data is delivered to the PSAP through the BellSouth  
ALI database using the BellSouth Standard ALI format. (The various NCAS architectures are beyond the  
scope of this document. See J-STD-034 and each NCAS vendor’s own documents for details.)  
In Phase 2, NCAS includes those same two (significant) data elements as well as the longitude/latitude  
coordinates of the caller when they dialed 9-1-1 on their wireless device (and potentially can include  
updated data upon demand). However, in Phase 2, NCAS (as defined in J-STD-036-A, Annex-D,  
Section D.1.2) includes BOTH the CBN and the pANI being sent directly from the WSPs MSC through  
the BellSouth E9-1-1 Tandem to the PSAP. In this instance the PSAP obtains the longitude/latitude  
coordinates through the BellSouth ALI database (using the BellSouth Extended ALI format) via the  
WSPs E2 interface. (The various E2 interface architectures are beyond the scope of this document. See J  
STD-036-A and Intrado’s "BellSouth SR/ALI to MPC Interface Specifications for TCP/IP Implementation  
of TIA/EIA/J-STD-036 E2" for details).  
In Phase 2 there is an alternative method of data delivery that J-STD-036-A refers to as Wireline  
Compatibility Mode (WCM), which ONLY sends the pANI (ESRK) directly from the WSPs MSC  
through the BellSouth E9-1-1 Tandem to the PSAP (Sounds like Phase 1 NCAS doesn’t it? Hence the  
terminology confusion!). In WCM the CBN and the longitude/latitude coordinates are added to an existing  
pANI record in the BellSouth ALI-DB during the call by the WSP or their agent using an out-of-band  
signaling path defined as an E2 interface. An updated Phase 2 compliant pANI ALI record including the  
CBN, cell/sector address data and longitude/latitude coordinates is delivered to the PSAP through the  
BellSouth ALI database using the BellSouth Extended ALI response format. If the x, y coordinates of  
the caller are unknown at the time the updated pANI ALI record is created, the WSP (or their agent) is  
expected to fall back to a Phase 1 compliant record that would include the CBN & cell/sector address data.  
(The E2 interface architecture and operations are beyond the scope of this document. See J-STD-036-A,  
and Intrado’s "BellSouth SR/ALI to MPC Interface Specifications for TCP/IP Implementation of  
TIA/EIA/J-STD-036 E2" for details.)  
In BellSouth there is another alternative method of data delivery that is structured upon the J-STD-036-A  
NCAS Solution in Phase 2, or on J-STD-034 CAS in Phase 1. In either case it is a 20 digits to the PSAP  
type solution. However, this 20 digit solution can be used between the MSC and the NDET even if the  
PSAP is not capable of receiving 20 digits from the NDET. This is accomplished by using the BellSouth  
Page 82  
Download from Www.Somanuals.com. All Manuals Search And Download.  
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Wireless E9-1-1 Solution (WLS911), a Hybrid architecture functional in both Phase 1 and Phase 2  
environments. WSPs should see their BellSouth account team for details on how the WLS911 Solution  
may be of value in their overall architecture plans.  
A.7 Interface Protocol for Wireless Call Setup when using SS7/ISUP signaling.  
A WSP choosing to interconnect with SS7 trunks using ISUP signaling in support of delivery of  
Wireless E9-1-1 calls shall comply with one of the following three signaling options available in the  
BellSouth E9-1-1 Network. On the BellSouth NDET switches the options are known as "WRLS_STD"  
or "WRLS_CLD" or "E911_STD". Any one of these three can be supported on the BellSouth NDET  
switches on a per incoming trunk group basis. (They would of course be known by other nomenclature  
designations on various Wireless switches.)  
NOTE: The WRLS_STD signaling option is used when the pANI is located in the Generic Digits (GDP)  
Parameter. Calling Party Number is used as the callback number. Charge Number is ignored by the NDET.  
This is the industry standard for wireless calls on the NDET.  
The WRLS_CLD signaling option is used when the pANI is located in the Called Party Number parameter,  
instead of the digits 9-1-1. Calling Party Number is used as the callback number. Charge Number is  
ignored by the NDET. Generic Digits (GDP) Parameter IS NOT ALLOWED!  
Depending on which signaling option is chosen, the WSP will send an Initial Address Message (IAM)  
containing the following parameters when sending a wireless E9-1-1 call to a BellSouth E9-1-1 tandem:  
Calling Party Number Parameter  
Called Party Number Parameter  
Generic Digits (GDP) Parameter (NOT allowed if the WSP uses WRLS_CLD)  
Charge Number Parameter  
NOTE: Although Charge Number Parameter is allowed as an optional parameter, it is ignored  
by the NDET when using either of the WRLS_xxx signaling options.  
Calling Party Category Parameter  
Originating Line Information Parameter Calling Party Number Parameter  
A.7.1  
Calling Party Number  
The Calling Party Number parameter value is variable depending upon which trunk group signaling option  
is being used. If the intention is to achieve Wireline Compatibility Mode (using E911_STD), the Calling  
Party Number parameter shall contain the pANI that will be used for Selective Routing, and will be sent to  
the PSAP to retrieve additional call data via the ALI database path. Otherwise, in either of the WRLS_xxx  
signaling options the Calling Party Number parameter shall contain the caller’s CBN (or a number being  
used as a substitute when the CBN is unknown).  
The wireless carrier shall specify the contents of the Calling Party Number (i.e., the CBN or a pANI) at  
the time the trunk group is ordered (via their BellSouth account team using form RF-1004-WS). Once a  
trunk group is provisioned, the wireless carrier shall adhere to their choice (i.e., a trunk cannot signal the  
CBN for one call and a pANI for another call).  
Page 83  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
A.7.2  
Calling Party Number Parameter  
Calling Party Number is a required parameter in the IAM. The Called Party Number parameter  
value is variable depending upon which trunk group signaling option is being used. In any case it shall  
either contain the digits "911" or a pANI.  
The Called Party Number parameter includes the digits "911" when the pANI is provided in the Generic  
Digits Parameter (WRLS_STD signaling option), or when the Calling Party Number contains the pANI  
(E911_STD for Wireline Compatibility Mode).  
The Called Party Number parameter contains the pANI when the Generic Digits Parameter is not used, but  
Wireline Compatibility Mode is not desired (WRLS_CLD signaling option). The need to use WRLS_CLD  
may be a result of a situation where the WSP switch cannot support a GDP parameter. In that case the  
pANI would appear in the Called Party Number parameter. If a WSP switch can support a GDP, and if  
Wireline Compatibility Mode is not desired, then the GDP is the recommended place to put the pANI  
(WRLS_STD signaling option).  
The wireless carrier shall specify the contents of the Called Party Number (i.e., the digits "911" or a pANI)  
at the time the trunk group is ordered (via their BellSouth account team using form RF-1004-WS). Once a  
trunk group is provisioned, the wireless carrier shall adhere to their choice (i.e., a trunk cannot signal the  
digits "911" for one call and a pANI for another call).  
Called Party Number is a required parameter in the IAM.  
A.7.3  
Generic Digits Parameter & GDP Type  
The Generic Digits Parameter (if required) shall contain a pANI. The "type of digits" field in the Generic  
Digits Parameter shall be coded 01101 (decimal 13) for cell site and sector identification. A Generic Digits  
Parameter is conditionally required in the IAM.  
A Generic Digits Parametershall be included in the IAM when a wireless carrier chooses to send the  
digits "911" in the Called Party Number parameter (WRLS_STD signaling option). If a WSP switch can  
support a GDP, and if Wireline Compatibility Mode is not desired, then the GDP is the recommended  
place to put the pANI.  
A GDP shall NOT be included in the IAM if the Calling Party Number or the Called Party Number  
parameter contains the pANI.  
The wireless carrier shall specify whether a Generic Digits Parameter will be included in the IAM at the  
time the trunk group is ordered (via their BellSouth account team using form RF-1004-WS). Once a trunk  
group is provisioned, the wireless carrier shall adhere to their choice (i.e., a trunk cannot include a GDP  
for one call and not for another call).  
Generic Digits Parameter is a conditionally required parameter in the IAM.  
In all cases where GDP is used, "type of digits" must equal "13". Delivery of a pANI in a GDP that  
isn’t type 13 will not work as intended.  
Page 84  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
A.7.4  
Charge Number Parameter  
If present, the Charge Number parameter shall contain the caller’s CBN or the non-dialable callback  
number, or in Wireline Compatibility Mode it shall contain the pANI. Charge Number is an optional  
parameter in the IAM.  
Charge Number is an optional parameter in the IAM.  
NOTE: Charge Number Parameter is ignored by the NDET when using either of the WRLS_ xxx  
signaling options.)  
A.7.5  
Calling Party Category Parameter (CPC, aka: CPCat)  
The Calling Party Category parameter shall be coded as 11100000 (decimal 224) for "emergency service  
call".  
Calling Party Category is a required parameter in the IAM.  
NOTE:  
The Calling Party Category parameter encoding "emergency service call" is not required on all E9-1-1  
tandem switches and may be waived in some instances. WSPs seeking to waive this requirement should  
consult their BellSouth representative. See Attachment "A" for details  
A.7.6  
Originating Line Information Parameter  
For call scenarios #2, and #3 (with or without a hybrid architecture at the Selective Router), the Originating  
Line Information parameter shall be coded either as 00111101 (decimal 61) for "cellular services (type1),"  
00111110 (decimal 62) for "cellular services (type2)," or 00111111 (decimal 63) for "cellular services  
(roaming)." The OLI parameter carries the II digits defined by the NANP administrator. The OLI  
parameter and the II values can be found in T1.113 (ANSI ISUP standard). Telcordia has also listed the  
wireless II values (61, 62, and 63) in the E9-1-1 SS7 generic requirements document GR-2956.  
For call scenario #1, (WCM) the Originating Line Information parameter shall be coded either as 00  
(POTS).  
Click here to view call scenarios.  
Originating Line Information is a required parameter in the IAM.  
The Originating Line Information parameter is not required on all E9-1-1 tandem switches and may  
be waived in some instances.  
NOTE:  
WSPs seeking to waive this requirement should consult their BellSouth representative. See Attachment  
"A" for details. BellSouth NDETs running software NA016 or higher will require the OLI parameter IF  
AIN OFF-BOARD SELECTIVE ROUTING IS BEING USED.  
Page 85  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
A.8 Cross Reference Tables to J-STD-036-A  
The intention of this section is to provide a method for a WSP to assess which type of BellSouth supported  
SS7/ISUP signaling option can best fit their needs. Each decision MUST take into account the capability  
of the WSPs MSC and the capability of the PSAP CPE, and may be impacted by the type of ALI steering  
options involved.  
The following pages in this section represent the different interconnection scenarios that are described in  
J-STD-036-A for Wireless E9-1-1 Phase 2.  
A.8.1  
Wireline Compatibility Mode (NDET uses signaling option E911_STD)  
If the WSP will be using a Wireless E9-1-1 Phase 1 Non Callpath Associated Signaling (NCAS) Solution,  
as described in J-STD-034 or Wireless E9-1-1 Phase 2 Wireline Compatibility Mode, as described in  
J-STD-036-A to deliver the Call Back Number (CBN) and/or x, y coordinates to the PSAP via the  
ALI database, Table "A" below describes an acceptable interconnection method (known as Wireline  
Compatibility Mode in , as described in J-STD-036-A). In this interconnection method ONLY the pANI is  
sent into the BellSouth NDET, directly from the WSPs MSC over dedicated trunks. The pANI is used by  
the NDET for selective routing, and then the pANI is sent to the PSAP the same way ANI would be on a  
landline call. That may be as an 8 or 10 digit number, depending on the capability of the PSAP CPE.  
The NCAS or WCM Solution provider is expected to create a record in the BellSouth ALI database that  
will contain the CBN (among other data normally included by the NCAS provider, which may or may not  
also include Phase 2 data). That activity is beyond the scope of this document.  
Extracted in part from Annex D: of J-STD-036-A, clarified for use in BellSouth.  
Table "A" ISUP Initial Address Message Parameter Contents for Wireline Compatibility Mode (ESRK).  
In this mode only the ESRK is sent as the ANI over dedicated trunks to the Selective Router because the  
trunk between the Selective Router and the PSAP supports transport of only one 7/10 digit number.  
Orreq Parameters  
Digits(Dialed)  
ISUP Parameters  
Called party number  
Value  
(911) (see Note 1 below)  
MDN (aka: CBN)  
Calling party number (see Note 2 ESRK  
below)  
DMH_BillingDigits  
GenericDigits  
Charge Number (see Note 2  
below)  
ESRK  
Generic digits parameter (see Note NOT ALLOWED (see Note 3  
3 below)  
below)  
GeographicPosition  
n/a  
Calling geodetic location  
n/a  
Originating Line Information  
(OLI)  
If included, use value 00  
(POTS)  
NOTES:  
Page 86  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
1. For an ESC, the ISUP Called Party Number parameter shall only be populated with the  
digit value "911".  
2. The Calling Party Number MUST be included in the IAM message. The Charge Number may  
also be included in the IAM, but if so it MUST be the SAME as the Calling Party Number.  
3. The Generic digits parameter SHALL NOT be included in the IAM.  
A.8.2  
ISUP Initial Address Message Parameter Contents for NCAS (NDET uses  
signaling option WRLS_STD, because MSC can support GDP)  
(NCAS as described in J-STD-036-A, Annex-D, Section D.1.2)  
As this (NDET) signaling option’s name implies, this should only be used on trunks handling wireless  
traffic exclusively, and is the industry standard for wireless calls (on an NDET). This option uses the pANI  
in the Generic Digits parameter to route the call and uses the Calling Party Number Parameter as the  
callback number. If the WSP will be using a Non Callpath Associated Signaling (NCAS) Solution (as  
described in J-STD-036-A, Annex-D, Section D.1.2) that intends to deliver the Call Back Number (CBN)  
and the pANI to the PSAP via the trunk between the Selective Router and the PSAP, Table "B" below  
illustrates an acceptable interconnection method. In this interconnection method BOTH a pANI (ESRD)  
and the CBN (aka: MDN) are sent in the SS7/ISUP IAM directly from the WSPs MSC over dedicated  
trunks into the BellSouth NDET. The pANI is used by the NDET for selective routing, and then the CBN  
and the pANI are sent to the PSAP using Enhanced MF signaling (E-MF). This is of course dependant on  
the ability of the PSAP CPE to receive and utilize E-MF. As of 3Q2003 no PSAPs in BellSouth’s E9-1-1  
service area are using E-MF, but many may migrate toward it beginning in 4Q2003 or 1Q2004.  
When using this interconnection method the NCAS Solution provider might still create a record in the  
BellSouth the ALI database containing the pANI &/or the CBN (among other data normally included by  
the NCAS provider, which may or may not also include Phase 2 data). That is beyond the scope of this  
document.  
See Table “B” below.  
See prior page for an explanation of when this type of interconnection is acceptable.  
NDET uses signaling option WRLS_STD, because MSC can support GDP)  
Extracted in part from J-STD-036-A, Annex-D, Section D.1.2, but clarified for use in BellSouth  
Table "B" ISUP Initial Address Message Parameter Contents for Phase 2 NCAS.  
In this mode both an ESRD and the MDN are sent in the IAM, assuming that the trunk between the  
Selective Router and the PSAP supports transport of at least two 7/10-digit numbers.  
NOTE:  
This 20 digit solution can be used between the MSC and the NDET even if the PSAP is not capable of  
receiving 20 digits from the NDET. This is accomplished by using the BellSouth Wireless E9-1-1 Solution  
(WLS911), a Hybrid architecture functional in both Phase 1 and Phase 2 environments. WSPs should see  
Page 87  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
their BellSouth account team for details on how the WLS911 Solution may be of value in their overall  
architecture plans.  
Orreq  
UP Parameters  
Value  
Parameters  
Digits(Dialed)  
Called party number (see Note 1  
below)  
911  
MDN (aka: CBN) Calling party number (see Note 3  
below)  
CBN or the non-dialable number  
used in lieu of a real callback  
DMH_BillingDigits Charge Number (see Note 3 below)  
CBN or the non-dialable number  
used in lieu of a real callback (see  
Note 3 below)  
GenericDigits  
Generic digits parameter (see Note 2 ESRD  
below)  
GeographicPosition Calling geodetic location  
n/a  
n/a  
Originating Line Information (OLI)  
If included, use value 61 OR 62  
NOTES:  
1. 911 is used as the Called party number. In BellSouth the MSC MUST use dedicated trunks to  
the Emergency Services Network Entity (ESNE) to route the Emergency Services Call (ESC).  
2. The Type of Digits field within the Generic Digits Parameter should be set to 01101 (decimal  
13) to indicate Location Identification Number .  
3. The Calling Party Number MUST be included in the IAM message. The Charge Number may  
also be included in the IAM, but if so it MUST be the SAME as the Calling Party Number.  
Although Charge Number Parameter is allowed as an optional parameter, it is ignored by the  
NDET when using either of the WRLS_xxx signaling options.  
A.8.3  
ISUP Initial Address Message Parameter Contents for NCAS (NDET uses  
signaling option WRLS_CLD because MSC cannot support GDP)  
As this signaling option’s name implies, this should only be used on trunks handling wireless traffic  
exclusively. This type of signaling (WRLS_CLD) looks for the pANI in the Called Party Number  
parameter rather than the Generic Digits Parameter. It uses the Calling Party Number parameter as the  
callback number. Signaling type WRLS_CLD assumes the Called Party Number is always the pANI. This  
signaling option (WRLS_CLD) IS NOT TO BE USED IF WIRELINE COMPATIBILITY MODE  
IS DESIRED (use E911_STD instead). The need to use WRLS_CLD is assumed to be the result of a  
situation where the WSP’s MSC switch cannot support a GDP parameter. In that case the pANI would  
appear in the Called Party Number parameter, as long as WCM is NOT desired.  
Page 88  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
WARNING  
If an MSC switch can support a GDP, and if Wireline Compatibility  
Mode is NOT desired, then the GDP is the recommended place  
to put the pANI.  
If the WSP will be using a Non Callpath Associated Signaling (NCAS) Solution (as described in  
J-STD-036-A, Annex-D, Section D.1.2) that intends to deliver the Call Back Number (CBN) and the pANI  
to the PSAP via the trunk between the Selective Router and the PSAP, Table "C" below illustrates an  
acceptable interconnection method. In this interconnection method BOTH a pANI (ESRD) and the CBN  
(aka: MDN) are sent in the SS7/ISUP IAM directly from the WSPs MSC over dedicated trunks into the  
BellSouth NDET. The pANI is used by the NDET for selective routing, and then the CBN and the pANI  
are sent to the PSAP using Enhanced MF signaling (E-MF). This is of course dependant on the ability of  
the PSAP CPE to receive and utilize E-MF. As of 3Q2003 no PSAPs in BellSouth’s E9-1-1 service area  
are using E-MF, but many may migrate toward it beginning in 4Q2003 or 1Q2004.  
When using this interconnection method the NCAS Solution provider might still create a record in the  
BellSouth the ALI database containing the pANI &/or the CBN (among other data normally included by  
the NCAS provider, which may or may not also include Phase 2 data). That is beyond the scope of this  
document.  
See Table “C” below.  
See prior page for an explanation of when this type of interconnection is acceptable. (NDET uses  
signaling option WRLS_CLD because MSC cannot support GDP).  
Extracted in part from J-STD-036-A, Annex-D, Section D.1.2, but clarified for use in BellSouth  
Table "C" ISUP Initial Address Message Parameter Contents for Phase 2 NCAS  
In this mode both an ESRD and the MDN are sent in the IAM, assuming that the trunk between the  
Selective Router and the PSAP supports transport of at least two 7/10-digit numbers.  
NOTE:  
This 20 digit solution can be used between the MSC and the NDET even if the PSAP is not capable of  
receiving 20 digits from the NDET. This is accomplished by using the BellSouth Wireless E9-1-1 Solution  
(WLS911), a Hybrid architecture functional in both Phase 1 and Phase 2 environments. WSPs should see  
their BellSouth account team for details on how the WLS911 Solution may be of value in their overall  
architecture plans.  
- continued -  
Page 89  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
- continued -  
ISUP Parameters  
Orreq  
Parameters  
Value  
pANI (see Note 1 below)  
Digits(Dialed)  
Called party number (see Note 1  
below)  
MDN (aka: CBN) Calling party number (see Note 3  
CBN or the non-dialable number  
used in lieu of a real callback  
below)  
DMH_BillingDigits Charge Number (see Note 3 below)  
CBN or the non-dialable number  
used in lieu of a real callback (see  
Note 3 below)  
GenericDigits  
Generic digits parameter (see Note 2  
below)  
NOT ALLOWED (see Note 2  
below)  
GeographicPosition Calling geodetic location  
n/a  
n/a  
Originating Line Information (OLI)  
If included, use value 61 OR 62  
NOTES:  
1. The pANI is used as the Called party number. In BellSouth the MSC MUST use dedicated  
trunks to the Emergency Services Network Entity (ESNE) to route the Emergency Services  
Call (ESC).  
2. The Generic Digits Parameter IS NOT ALLOWED TO BE SENT IN THE IAM WHEN  
USING WRLS_CLD!  
3. The Calling Party Number MUST be included in the IAM message. The Charge Number may  
also be included in the IAM, but if so it MUST be the SAME as the Calling Party Number.  
Although Charge Number Parameter is allowed as an optional parameter, it is ignored by the  
NDET when using either of the WRLS_xxx signaling options.  
A.8.4  
ISUP Initial Address Message Parameter Contents for CAS  
There are no ISDN PSAPs in the BellSouth E9-1-1 serving area. Therefore the interconnection  
arrangement shown in Table "D" below IS NOT SUPPORTED.  
Shown here for reference ONLY.  
WARNING  
This IS NOT SUPPORTED in BellSouth.  
Extracted in part from Annex D: of J-STD-036-A  
Table "D" ISUP Initial Address Message Parameter Contents for CAS.  
Page 90  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
In this mode the initial position of the mobile is also sent in the IAM.  
Orreq  
Parameters  
ISUP Parameters  
Called party number  
Calling party number  
Value  
Digits(Dialed)  
(911) or PSAP DN (see Note 1  
below) or ESRD  
MDN  
CBN or the non-dialable number  
used in lieu of a real callback  
DMH_BillingDigits Charge Number (see Note 3 below)  
CBN or the non-dialable number  
used in lieu of a real callback  
GenericDigits  
Generic digits parameter (see Note 2  
below)  
ESRD  
GeographicPosition Calling geodetic location  
geographic position (x, y)  
n/a  
Originating Line Information (OLI)  
If included, use value 61 OR 62  
NOTES:  
1. 911 is used as the Called party number if the MSC uses dedicated trunks to the Emergency  
Services Network Entity (ESNE) to route the Emergency Services Call (ESC). The directory  
number of the PSAP is used as the called party number if the MSC uses a shared trunk to route  
the ESC to the ESNE. The ESRD may be used on dedicated trunks that do not support the  
ISUP Generic Digits parameter.  
2. The Type of Digits field within the Generic Digits Parameter (IF USED) should be set to  
indicate Location Identification Number. GDP MUST NOT BE SENT IF WRLS_CLD  
signaling option is used at the NDET.  
3. The Charge Number, Calling Party Number or both may be included in the IAM message.  
Although Charge Number Parameter is allowed as an optional parameter, it is ignored by the  
NDET when using either of the WRLS_xxx signaling options.  
WARNING  
Remember, Phase 2 CAS IS NOT SUPPORTED in BellSouth!  
A.9 Cross Reference Tables to NENA TID 05-501 - SS7 Guidelines for MSC to  
Selective Router Connectivity.  
The intention of this section is to provide a way for a WSP to assess which type of BellSouth supported  
SS7/ISUP signaling option can best fit their needs. Each decision MUST take into account the capability  
of the WSPs MSC and the capability of the PSAP CPE, and may be impacted by the type of ALI steering  
options involved.  
Each of the following pages in this section represents a different interconnection scenario that is described  
in NENA TID 05-501- SS7 Guidelines for MSC to Selective Router Connectivity.  
Page 91  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
A.9.1  
Call Scenario 1: ESRK Delivery  
Call Scenario 1 describes the mode where an MSC uses ISDN User Part (ISUP) protocol to send an  
ESRK to an E911 selective router. Call Scenario 1 supports the Wireline Compatibility Mode1described  
in J-STD-036-A, Annex D, Section D.1.1. Wireless carriers can use Call Scenario 1 to support Phase I  
and/or Phase II wireless E911 calls. The table below shows the possible alternatives for populating the  
parameters in the Initial Address Message (IAM).  
BellSouth’s equivalent of NENA 05-501 Table 4-1 (ESRK Delivery):  
ISUP  
OLI  
CpCAT  
CdPN  
CPN  
CHGN  
GDP  
NDET  
signaling  
option  
Note(s)  
Parameter Wireless Emergency  
Option  
No  
No  
No  
No  
No  
No  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
A1  
A2  
A3  
B1  
B2  
B3  
911  
911  
911  
911  
911  
911  
ESRK  
ESRK  
Blank  
ESRK  
ESRK  
Blank  
ESRK  
Blank  
ESRK  
ESRK  
Blank  
ESRK  
Blank E911_STD  
(WCM)  
1, 2  
1, 2  
1, 2  
1, 2  
1, 2  
1, 2  
Blank E911_STD  
(WCM)  
Blank E911_STD  
(WCM)  
Blank E911_STD  
(WCM)  
Blank E911_STD  
(WCM)  
Blank E911_STD  
(WCM)  
NOTES:  
1. This ISUP parameter option is widely supported in the U.S. It is estimated that 95% of the  
E911 selective routers deployed in the U.S. support this option when the selective router has  
been equipped with wireless E911 features.  
2. "Blank"-- this parameter MUST NOT be populated.  
A.9.2  
8.2 Call Scenario 2: CBN and ESRD Delivery  
Call Scenario 2 describes the mode where a MSC uses ISUP protocol to send the caller’s CBN and  
ESRD to an E911 selective router. Call Scenario 2 supports the Phase 2 NCAS2 mode described in  
J-STD-036-A, Annex D, Section D.1.2. Wireless carriers can use Call Scenario 2 to support Phase I  
and/or Phase II wireless E911 calls. The table below shows the possible alternatives for populating the  
parameters in the Initial Address Message (IAM).  
1
2
J-STD-036 uses the term "Wireline Compatibility Mode" to describe scenarios where MSCs use the ISUP parameter mappings  
normally used by landline switches to signal E911 calls to E911 selective routers.  
J-STD-036 uses the term NCAS to describe scenarios where an MSC uses ISUP protocol to send CBN and ESRD to an  
E911 selective router.  
Page 92  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
BellSouth’s equivalent of NENA 05-501 Table 4-2 (CBN & ESRD Delivery):  
ISUP  
OLI  
CpCAT  
CdPN  
CPN  
CHGN  
GDP  
NDET  
signaling  
option  
Note(s)  
Parameter Wireless Emergency  
Option  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
No  
Yes  
Yes  
Yes  
No  
A1  
A2  
A3  
B1  
B2  
B3  
C1  
C2  
C3  
D1  
D2  
D3  
E1  
E2  
F1  
F2  
G1  
G2  
H1  
H2  
I1  
911  
911  
CBN  
CBN  
Blank  
CBN  
CBN  
Blank  
jCBN  
CBN  
Blank  
CBN  
CBN  
Blnk  
CBN  
CBN  
CBN  
CBN  
CBN  
CBN  
CBN  
CBN  
CBN  
CBN  
Blank  
CBN  
Blank  
CBN  
CBN  
Blank  
CBN  
CBN  
Blank  
CBN  
CBN  
Blank  
CBN  
CBN  
Blank  
CBN  
Blank  
CBN  
Blank  
CBN  
Blank  
CBN  
Blank  
CBN  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
Blank  
Blank  
Blank  
Blank  
Blank  
Blank  
Blank  
Blank  
ESRD  
ESRD  
ESRD  
WRLS_STD  
WRLS_STD  
E911_STD  
1
1
911  
1
911  
WRLS_STD  
WRLS_STD  
E911_STD  
3
No  
911  
3
No  
911  
3
Yes  
Yes  
Yes  
No  
911  
WRLS_STD  
WRLS_STD  
E911_STD  
3
No  
911  
3
No  
911  
3
No  
911  
WRLS_STD  
WRLS_STD  
E911_STD  
3
No  
No  
911  
3
No  
No  
911  
3
Yes  
Yes  
Yes  
Yes  
No  
Yes  
Yes  
No  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
ESRD  
WSRD  
ESRD  
ESRD  
WRLS_CLD  
WRLS_CLD  
WRSL_CLD  
WRLS_CLD  
WRLS_CLD  
WRLS_CLD  
WRLS_CLD  
WRLS_CLD  
WRLS_STD  
WRLS_STD  
1, 2  
1, 2  
2, 3  
2, 3  
2, 3  
2, 3  
2, 3  
2, 3  
1
No  
Yes  
Yes  
No  
No  
No  
No  
No  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
I2  
1
not  
supported  
I3  
3
Yes  
Yes  
No  
No  
No  
Yes  
J1  
J2  
ESRD  
ESRD  
ESRD  
CBN  
CBN  
CBN  
CBN  
Blank  
CBN  
ESRD  
ESRD  
ESRD  
WRLS_STD  
WRLS_STD  
WRLS_STD  
3
3
3
K1  
- continued -  
Page 93  
Download from Www.Somanuals.com. All Manuals Search And Download.  
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
- continued -  
ISUP  
OLI  
CpCAT  
CdPN  
CPN  
CHGN  
GDP  
NDET  
signaling  
option  
Note(s)  
Parameter Wireless Emergency  
Option  
No  
No  
No  
Yes  
No  
No  
K2  
L1  
L2  
ESRD  
ESRD  
ESRD  
CBN  
CBN  
CBN  
Blank  
CBN  
ESRD  
ESRD  
ESRD  
WRLS_STD  
WRLS_STD  
WRLS_STD  
3
3
3
Blank  
NOTES:  
1. This ISUP parameter option is widely supported in the U.S. It is estimated that 95% of the  
E9-1-1 selective routers deployed in the U.S. support this option when the selective router has  
been equipped with wireless E9-1-1 features.  
2. "Blank"-- this parameter MUST NOT be populated.  
3. This ISUP parameter option is available in some areas. It is estimated that 50% of the E9-1-1  
selective routers deployed in the U.S. support this option when the selective router has been  
equipped with wireless E9-1-1 features.  
A.10 Attachment "A" - CPCat & OLI Notes  
A.10.1  
Calling Party Category parameter (CPC):  
Prior to NA013 the Nortel DMS E9-1-1 Tandem (NDET) did not set or reference the CPC parameter  
in the IAM of ISUP calls for E9-1-1 purposes.  
In NA013, feature 59006371 entitled "E9-1-1 ISUP Enhancements" implemented setting the CPC  
parameter in the outgoing IAM of ISUP E9-1-1 calls to "Emergency Service Call" which is a value of  
#E0. This was to fulfill Telcordia standards. Even though the NDET began setting the CPC parameter, the  
logic still did not require this value to be set to recognize E9-1-1 calls.  
In NA016, feature 59029627 entitled "E9-1-1 ISUP and Log Enhancements" introduced a new Boolean sub  
field named DEDICATD for the E9-1-1 option on ISUP IT trunks incoming to the tandem. If this Boolean  
value is set to Y, the NDET assumes the trunk is dedicated to E9-1-1 traffic and the NDET does not check  
the CPC parameter. If the DEDICATD Boolean is set to N, the NDET assumes the trunk is being shared  
for both E9-1-1 and non-E9-1-1 traffic, and the NDET checks the CPC parameter to identify E9-1-1 calls.  
A.10.2  
Originating Line Parameter (OLI):  
Prior to NA013 the Nortel DMS E9-1-1 Tandem did not set or reference the OLI parameter in the IAM of  
ISUP calls for E9-1-1 purposes.  
In NA013, Nortel feature 59006371 entitled "E9-1-1 ISUP Enhancements" implemented setting the  
OLI parameter in the outgoing IAM for wireless E9-1-1 calls to "Cellular Services Type 1" (#3D) if the  
originating office did not send the parameter. If the originating office sends the parameter, the NDET does  
Page 94  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
not modify it, it simply passes whatever value it receives. Once again, the NDET sets this value, but as of  
NA013 does not use it to identify wireless calls.  
In NA016, the NDET began checking the OLI parameter on wireless E9-1-1 calls ONLY when using AIN  
Selective routing. If the received value was #3d, #3e, or #3f (61, 62, 63), the ChargePtyStationType was  
set accordingly in the TCAP TAT message to the remote database. If the originating wireless office did not  
send the parameter, the NDET set the ChargePtyStationType to #3d (61) so the remote database knows to  
use the correct parameter to perform Selective Routing. Other than when using AIN Selective routing,  
the OLI parameter is not used for E9-1-1 purposes. If BellSouth NDET is running software NA016 or  
higher and IF AIN OFF-BOARD SELECTIVE ROUTING IS BEING USED by the NDET, BellSouth will  
require the WSP to provide the OLI parameter as defined in this document.  
A.11 Attachment "B" - Wireless Customer Questions & Answers:  
A.11.1  
Why is BellSouth issuing this document?  
There have been conflicting views on the meaning of the terms "CAS" and "NCAS" in the Phase 2  
environment, and on what data should be placed in the various IAM parameters of an SS7 wireless call.  
NENA recognized this conflict and established a committee that included members from the wireless  
carriers, service providers, and public safety community. They created the "NENA 05-501 Technical  
Information Document on SS7 Guidelines for MSC to Selective Router Connectivity" document so that  
9-1-1 Service System Providers could clearly define the call setup methods supported in their respective  
networks. BellSouth is documenting our supported interconnection guidelines through the perspective of  
the NENA document so that all wireless carriers and switch providers see the requirements in a consistent  
and uniform method.  
A.11.2  
Do I have to change my existing trunks to SS7?  
No, this is an additional signaling option. As a WSP you should determine if it fits your needs. If you  
choose to do so, BellSouth will utilize the same basic process that you currently use when ordering  
E9-1-1 trunks. This document is merely a tool to clarify the interconnection requirements for wireless  
E9-1-1 service if you intend to utilize SS7 signaling.  
A.11.3  
Will this let me deliver ESRDs/ESRKs from more than one NPA on the SS7  
trunk group?  
SS7 signaling does allow multiple NPAs to be delivered over a common trunk group. BUT, this may  
be dependent on how default routing is defined.  
A.11.4  
Will this let me reduce the number of trunk groups I have in place?  
Separate trunk groups may still be required dependent on how default routing is defined, and/or dependent  
on congestion control needs.  
Page 95  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
Wireless E911 Guide  
CG-EWCG-001  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
Issue 3, January 6, 2004  
A.11.5  
What if I don’t have SS7 signaling "A" link connectivity to support trunking  
to the appropriate NDET?  
You can order it through your normal BellSouth circuit ordering procedures. See BellSouth TR 73554  
Issue D, December 2002 (or later), BST GUIDELINES TO TECHNICAL PUBLICATION GR-905-CORE  
for details on the interfaces required to interconnect out-of-band Common Channel Signaling (CCS)  
networks that utilize the Signaling System Number 7 (SS7) protocol provided by a different CCS Network.  
A.11.6  
What do I do for Continuity Testing on these SS7 trunks?  
BellSouth encourages the use of continuity testing for 911 trunks using SS7 signaling, with the testing  
rate of 100%. We also recommend the use of continuity tone levels of Transmit High - Receive High for  
4 wire or digital switches (i.e., 4W4W (5ESS), THRH (DMS-100), etc.). We have no provisions to  
deviate from the national standards of THRH if digital, and TLRH if the MSC is a 2-wire analog switch,  
which isn’t likely today. If you need any other continuity test, please let your account team know so  
that it can be provisioned separately.  
A.12 11.0 Attachment "C" - Wireless Customer Checklist  
Wireless Customer Checklist (in no particular order):  
Does the MSC have SS7 signaling link connectivity to support trunking to the appropriate  
NDET?  
Do we know what call scenario we plan to follow? (i.e. WCM or NCAS WITH the BellSouth  
hybrid functionality, etc.)  
Do we know what trunk continuity test levels, and testing percentages that we plan to use?  
(BellSouth encourages that the percentage be 100%.) Remember, BellSouth has no provisions  
to deviate from the national standards of THRH if digital, and TLRH if the MSC is a 2-wire  
analog switch, which isn’t likely today.  
Do we know what TCICs we’re going to use?  
Are the proper Destination and Originating Point Codes identified for the new trunk group(s)?  
Is this group properly ordered as 1-Way, outgoing from the MSC, SS7, with the Mobile Carrier  
office as the "A" end, and the BellSouth office as the "Z" end?  
Do we have a testing method to generate a call on the SS7 E9-1-1 group, and a written Call  
Through Test Plan to ensure these trunks are working correctly BEFORE we put live wireless  
E9-1-1 service on them?  
NOTE: This list is NOT intended to be all inclusive of the steps necessary to deploy wireless E9-1-1  
service using SS7 signaling.  
NOTE: Specific information regarding BellSouth’s point codes may be obtained from each carrier’s  
BellSouth’s account team when orders are being placed for SS7 controlled trunk groups.  
Page 96  
Download from Www.Somanuals.com. All Manuals Search And Download.  
 
CG-EWCG-001  
Wireless E911 Guide  
Issue 3, January 6, 2004  
BellSouth Wireless E9–1–1/SS7 Interconnection  
Guide  
KEYWORDS  
Wireless Carrier  
BST Wireless E911  
Page 97  
Download from Www.Somanuals.com. All Manuals Search And Download.  

BenQ Video Gaming Accessories XL2420T XL2420TX User Manual
Black Box Server 1108 Console Server User Manual
Bosch Appliances Home Security System D9112B User Manual
Boston Acoustics Home Theater System MCS 160 User Manual
Bowers Wilkins Portable Speaker CMC User Manual
Breville Coffeemaker BKC700XL User Manual
Brother Sewing Machine 882 U10 User Manual
Cambridge SoundWorks Exercise Bike MC650HD User Manual
Char Broil Charcoal Grill 461111811 User Manual
Chicago Electric Cordless Saw 68104 User Manual