| Record ID | marc_nuls/NULS_PHC_180925.mrc:290002711:5295 |
| Source | marc_nuls |
| Download Link | /show-records/marc_nuls/NULS_PHC_180925.mrc:290002711:5295?format=raw |
LEADER: 05295nam 22003254a 4500
001 9922288340001661
005 20150423143125.0
008 010924s2002 nyua b 001 0 eng
010 $a 2001276669
020 $a0071373403
035 $a(CSdNU)u100148-01national_inst
035 $a(Sirsi) l2001276669
035 $a(Sirsi) l2001276669
035 $a(Sirsi) 01-AAM-5670
035 $a 2001276669
040 $aDLC$cDLC$dOrPss
042 $apcc
050 00 $aTK 5105.55$bC35 2002
100 1 $aCamarillo, Gonzalo.
245 10 $aSIP demystified /$cGonzalo Camarillo.
246 3 $aSession Initiation Protocol demystified
260 $aNew York :$bMcGraw-Hill,$cc2002.
300 $axviii, 264 p. :$bill. ;$c24 cm.
504 $aIncludes bibliographical references and index.
505 0 $aSignalling in the Circuit-Switched Network -- The Origins of Circuit-Switching -- Characteristics of Circuit-Switching -- Strengths of Circuit-Switching -- Weaknesses of Circuit-Switching -- Introduction to Signalling -- FDM and In-band Signalling -- Analog Transmission -- Digital Transmission -- Time Division Multiplexing -- Digital Signalling Systems -- Access Signalling -- Trunk Signalling -- SS7 -- The Paradigm Behind SS7 -- Packet Switching, IP, and the IETF -- Packet Switching -- Strengths of Packet Switching -- Weaknesses of Packet Switching -- X.25 -- IP and the Internet Paradigm -- IP Connectivity -- Intelligence Pushed to the End Systems -- End-to-End Protocols -- General Design Issues -- History of the Internet Protocol Development Process -- Origins of the Request For Comments (RFCs) -- Coordination Bodies -- The IETF -- The IESG -- The Technical Work -- IETF Specifications: RFCs and I-Ds -- The Internet Multimedia Conferencing Architecture -- The Internet Layered Architecture -- Transport Layer Protocols -- Real-Time Services in the Internet -- Multicast -- Routing Towards Many Receivers -- Advantages of Multicast -- Multicast Routing Protocols -- IGMP -- The Mbone -- Transport of Real-Time Data: RTP -- Jitter and Sequencing of Datagrams -- Real-Time Transport Control Protocol -- QoS Provisioning: Integrated Services and Differentiated Services -- Integrated Services -- Differentiated Services (DiffServ) -- Session Announcement Protocol (SAP) -- Session Descriptions -- Session Description Protocol (SDP) -- SDP Syntax -- SDP Next Generation (SDPng) -- Real-Time Streaming Protocol (RTSP) -- Usage Example of the Internet Multimedia Conferencing Toolkit -- The Session Initiation Protocol: SIP -- SIP History -- Session Invitation Protocol: SIPv1 -- Simple Conference Invitation Protocol: SCIP -- Session Initiation Protocol: SIPv2 -- Functionality Provided by SIP -- Session Establishment, Modification, and Termination -- User Mobility -- SIP Entities -- User Agents -- Redirect Servers -- Proxy Servers -- Registrars -- Location Servers -- Good Features of SIP -- SIP Is Part of the IETF Toolkit -- Separation Between Establishing and Describing a Session -- Intelligence in the End System: End-to-End Protocol -- Interoperability -- Scalability -- SIP as a Platform for Service Creation -- SIP: Protocol Operation -- Client/Server Transactions -- SIP Responses -- SIP Requests -- Types of Proxy Servers -- Call Stateful Proxy -- Stateful Proxy -- Stateless Proxy -- Distribution of Proxies -- Format of SIP Messages -- SIP Request Format -- SIP Response Format -- SIP Headers -- SIP Bodies -- Transport Layer -- INVITE Transactions -- CANCEL Transactions -- Other Transactions -- Detailed Example -- SIP Call Through a Proxy -- Extending SIP: The SIP Toolkit -- Extension Negotiation -- How It's Done -- Design Principles for SIP Extensions -- Do Not Break the Toolkit Approach -- Peer-to-Peer Relationship -- Independence from Session Type -- Do Not Change Method Semantics -- Extensions to SIP -- The SIP Toolkit -- Reliable Delivery of Provisional Responses -- Mid-session Transactions That Do Not Change the State of the Session -- Multiple Message Bodies -- Instant Messages -- Automatic Configuration of UAs -- Preconditions to Be Fulfilled Before Alerting -- Caller Preferences -- Asynchronous Notification of Events -- Third-party Call Control -- Session Transfer -- Sending Commands -- SIP Security -- Building Applications with the SIP Toolkit -- Third-generation Mobile Systems -- Network Domains -- Call Flow Examples -- Instant Messages and Presence -- SIMPLE Working Group -- Presence Architecture -- Instant Messaging -- PacketCable -- Architecture -- Call Flow Example -- PSTN to SIP Interworking -- Low-Capacity Gateways -- High-Capacity Gateways -- SIP Extensions for PSTN Interworking -- The PINT Service Protocol -- SIP for Conferencing -- Multicast Conferences -- End User Mixing Model -- Multipoint Control Unit (MCU) -- Decentralized Multipoint Conference -- Control of Networked Appliances -- Finding Futher Information on SIP -- IETF Web site -- Henning Schulzrinne's SIP Web page -- Dean Willis' Web Pages -- The SIP forum -- RFC example -- RFC.
650 0 $aComputer network protocols.
650 0 $aInternet telephony.
650 0 $aMultimedia systems.
948 $a01/04/2002$b02/05/2002
999 $aTK 5105.55 C35 2002$wLC$c1$i31786101648738$d6/23/2006$e5/31/2006 $f4/15/2004$g1$lCIRCSTACKS$mNULS$n1$rY$sY$tBOOK$u2/5/2002