Synopses & Reviews
Develop cost-effective, long-term solutions for packetized voice with this guide to the latest standards and practices
An increasing number of companies are taking advantage of Voice over IP (VoIP) technology. Before implementing VoIP, companies must decide if the packetized voice should be delivered over Layer 2 networks such as ATM or Frame Relay, or over Layer 3 IP networks. This comprehensive book presents the latest standards and practices so you can determine which approach is best for your company. Drawing upon years of practical experience, the authors explore the unique engineering problems posed by running voice over a connectionless network. They clearly explain the advantages and disadvantages of IP versus traditional packet networks. This book is a significant expansion of the authors' first edition, which published in 1998 and had the distinction of being the first book in the industry dedicated to this important topic of key interest to enterprise customers.
Along with several case studies, you'll find in-depth coverage of:
* Advances in signaling protocols such as SIP, H.323, and MEGACO
* Network architectures to support voice over IP
* Performance and voice quality considerations
* Technology and standards for low bit-rate vocoding methods
* Compression and integration methods for IP transmissions
* Advances in numbering techniques for Internet-era telephony such as ENUM
* Voice over IP technology for intranets, routed networks, and the Internet
* Second-generation switching and the development of non-switched alternatives
* Internet telephony servers and other support hardware
Synopsis
Internet-based telephony is an exciting prospect for every company running a TCP/IP stack network. But is won't be simple to deploy. Unlike traditional packet networks, IP networks are connectionless and pose entirely different engineering challenges. This book explores the potential investment in terms of both money and technology. It provides a review of important IP support protocols, detailed descriptions of voice-over-IP technologies, and case studies of Internet telephony servers.
Synopsis
- Includes new coverage on the advances in signaling protocols, second-generation switching and the development of non-switched alternatives, and the implementation lessons learned.
- Contains in-depth coverage of network architectures used to support VoIP, performance and voice quality considerations, compression and integration methods for IP tranmissions.
About the Author
Daniel Minoli is the Director of Engineering and Development for Teleport Communications Group (TCG). Prior to joining TCG, he was a senior scientist at Bellcore. A pioneer in the field, Dan's research into voice over data began in 1975. He has worked on several major implementations over the last twenty years and has published widely on the subject.
Emma Minoli is founder and Managing Director of Red Hill Consulting, which specializes in web-based technologies for e-commerce and other corporate productivity-enhancing applications.
Table of Contents
'PREFACE.
ACKNOWLEDGMENT.
ABOUT THE AUTHORS.
Chapter 1: Introduction and Motivation.
1.1 INTRODUCTION.
1.2 DRIVERS FOR VOICE OVER IP.
1.3 APPROACHES FOR IP-BASED VOICE SYSTEMS.
1.4 THE FUTURE.
REFERENCES.
Chapter 2: An Overview of IP, IPOATM, MPLS, and RTP.
2.1 INTRODUCTION.
2.2 INTERNET PROTOCOL.
2.3 IP OVER ATM (IPOATM).
2.4 BASIC SYNOPSIS OF MPLS.
2.5 REAL-TIME TRANSPORT PROTOCOL (RTP).
2.6 RTP CONTROL PROTOCOL (RTCP).
2.7 STREAM CONTROL TRANSMISSION PROTOCOL (SCTP).
2.8 ATM QOS MECHANISMS.
REFERENCES.
NOTES.
Chapter 3: Issues in Packet Voice Communication.
3.1 INTRODUCTION.
3.2 TRAFFIC MODELS.
3.3 PERFORMANCE CRITERIA.
3.4 LINK MODEL.
3.5 RESULTS.
3.6 CONCLUSION.
REFERENCES.
Chapter 4: Voice Technologies for Packet-Based Voice Applications.
4.1 INTRODUCTION.
4.2 G.727: ADPCM FOR PACKET NETWORK APPLICATIONS.
4.3 EXAMPLE OF APPLICATION.
REFERENCES.
NOTES.
Chapter 5: Technology and Standards for Low-Bit-Rate Vocoding Methods.
5.1 INTRODUCTION.
5.2 INTRODUCTION TO G.729 AND G.723.1.
5.3 G.723.1.
5.4 G.728.
5.5 G.729.
5.6 EXAMPLE OF APPLICATIONS.
REFERENCES.
NOTES.
Chapter 6: Voice over IP and the Internet.
6.1 INTRODUCTION.
6.2 IP/INTERNET BACKGROUND.
6.3 VOICE TRANSMISSION AND APPROACHES IN ATM, FRAME RELAY, AND IP.
6.4 QOS PROBLEMS AND SOLUTIONS.
6.5 PROTOCOLS FOR QOS SUPPORT FOR AUDIO AND VIDEO APPLICATIONS.
6.6 INTERNET TELEPHONY SERVERS (ITSS).
6.7 THE VOICE OVER IP/INTERNET MARKET.
6.8 VOIP REGULATORY ISSUES.
6.9 CONCLUSION.
REFERENCES.
NOTES.
Chapter 7: Signaling Approaches.
7.1 INTRODUCTION.
7.2 SIGNALING IN CIRCUIT-SWITCHED NETWORKS.
7.3 H.323 STANDARDS.
7.4 MGCP.
7.5 SIP.
7.6 OTHER IETF SIGNALING EFFORTS.
7.7 MEGACO.
7.8 SIGTRAN PROTOCOLS.
7.9 SCTP.
REFERENCES.
NOTES.
Chapter 8: Quality of Service.
8.1 INTRODUCTION.
8.2 BACKGROUND.
8.3 QOS APPROACHES.
8.4 QOS DETAILS.
8.5 CASE STUDY.
REFERENCES.
NOTES.
Chapter 9: Voice over MPLS and Voice over IP over MPLS.
9.1 INTRODUCTION AND BACKGROUND.
9.2 MOTIVATIONS.
9.3 BASIC MPLS FEATURES.
9.4 QOS CAPABILITIES.
9.5 VOICE APPLICATIONS.
REFERENCES.
NOTES.
Chapter 10: Telephone Number Mapping (ENUM).
10.1 INTRODUCTION.
10.2 BACKGROUND.
10.3 INTRODUCTION TO ENUM.
10.4 SUMMARY OF CAPABILITIES AND ISSUES.
10.5 NUMBER PORTABILITY.
10.6 E.164 NUMBERS AND DNS.
10.7 APPENDIX TO THE RFC 2916 SCENARIO.
REFERENCES.
NOTES.
Chapter 11: Carrier Applications.
11.1 INTRODUCTION AND OPPORTUNITIES.
11.2 WHERE THE ACTION SHOULD BE.
11.3 CARRIER VOICE NETWORKS.
11.4 DEPLOYMENT AND ISSUES.
11.5 ENTERPRISE APPLICATIONS.
11.6 INTERNATIONAL OPPORTUNITIES.
11.7 EQUIPMENT/VENDOR TRENDS.
REFERENCES.
NOTES.
INDEX.'