Synopsis Packetcable Implementation by : Jeff Riddel
"PacketCable Implementation" Design, provision, configure, manage, and secure tomorrow's high-value PacketCable networks Jeff Riddel, CCIE(R) No. 12798 PacketCable networks use IP technology to enable a wide range of multimedia services, from IP telephony to interactive gaming and beyond. Because PacketCable-based business and residential services are central to the cable industry's strategy for growth, the industry's need for PacketCable expertise is expected to increase dramatically. "PacketCable Implementation" is the first complete primer on PacketCable network design, provisioning, configuration, management, and security. Drawing on consulting experience with every leading cable operator, Jeff Riddel presents real-world case studies, sample network designs, configurations, and practical tips for all facets of PacketCable planning and deployment. This book's end-to-end coverage has been designed for cable engineers and networking professionals with widely diverse backgrounds and experience. Topics covered include PacketCable specifications and functional components, multimedia terminal adapters (MTA) provisioning, call signaling, media streaming, quality of service (QoS), event messaging, security, and much more. Every chapter contains tables and charts that serve as quick, easy references to key points. Each chapter closes with a summary and chapter review questions designed to help you assess and deepen your understanding. "PacketCable Implementation" brings together everything you need to know about cable networking to service delivery. Jeff Riddel, CCIE(R) No. 12798, is a network consulting engineer on the Cisco(R) Broadband Advanced Services team. There, he has consulted with all major U.S. MSOs, including Charter Communications, Comcast, AT&T, and Time Warner Cable. Riddel has represented Cisco in PacketCable interoperability testing at CableLabs in Louisville, Colorado. He holds a master's in electrical engineering from the Georgia Institute of Technology. Discover the PacketCable "big picture," including key application opportunities Learn about the latest generation of PacketCable standards and specifications, including PacketCable 2.0 and DOCSIS 3.0 Understand the functional components of a PacketCable network and how they fit together Walk step-by-step through provisioning, including protocols, flows, and MTA configuration Gain an in-depth understanding of call signaling: message formats, Network-based Call Signaling (NCS), PSTN interconnects, Call Management Server Signaling (CMSS), and more Implement efficient, high-performance media streaming Deploy, analyze, manage, and troubleshoot a state-of-the-art QoS framework Manage crucial network considerations, including lawful intercept Introduction Part I Introduction and Overview of PacketCable Chapter 1PacketCable Overview Chapter 2 PacketCable Functional Components Part II MTA Provisioning Chapter 3 Provisioning Overview Chapter 4 Provisioning Flows Chapter 5 The MTA Configuration File Part III Call Signaling Chapter 6 Signaling Interfaces and MGCP Overview Chapter 7 NCS (Network-based Call Signaling) Chapter 8 TGCP and the PSTN Interconnect Chapter 9 Call Management Server Signaling Protocol (CMSS) Part IV Media Stream Chapter 10 Audio CODECs Chapter 11 RTP and RTCP Part V Quality of Service Chapter 12 DQoS Architecture and Framework Chapter 13 Analyzing, Implementing, and Troubleshooting DQoS Chapter 14 Multimedia Applications Part VI Network Considerations Chapter 15 Event Messaging and Lawful Intercept Chapter 16 PacketCable Network Design Considerations Part VII Appendixes Appendix A Standards and Specifications Appendix B Cable Monitor and Ethereal Appendix C Complete Call Flows Index This book is part of the Networking Technology Series from Cisco Press(R), which offers networking professionals valuable information for constructing efficient networks, understanding new technologies, and building successful careers. Category: Cisco Press-Networking Covers: Broadband Multimedia $75.00 USA / $94.00 CAN