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作 者:(美)Alberto Leon-Garcia,Indra Widjaja 著
出 版 社:清华大学出版社
出版时间:2004 年1月
I S B N:7302078734
| Alberto Leon-Garcia is a Professor in the Department of Electrical and Computer Engineering at the University of Toronto where he holds the Jeffrey Skoll Chair in Computer Networks and Innovation. He was also Chief Technical Officer and co- founder of AcceLight Networks Inc. where he led the development of a terabit multi- service optical switch. In 1999 Dr. Leon-Garcia became an IEEE fellow for "For contributions to multiplexing and switchi.. << 查看详细 |
| preface about the authors 1 communication networks and services 1.1 evolution of network architecture and services 1.1.1 telegraph networks and message switching 1.1.2 telephone networks and circuit switching 1.1.3 the intemet, computer networks, and packet switching 1.2 future network architectures and their services 1.3 key factors in communication network evolution 1.3.1 role of technology 1.3.2 role of regulation 1.3.3 role of the market 1.3.4 role of standards checklist of important terms further reading problems 2 applications and layered architectures 2.1 examples of protocols, services, and layering 2.1.1 http, dns, and smtp 2.1.2 tcp and udp transport layer services .2.2 the osi reference model 2.2.1 the seven-layer osi reference model 2.2.2 unified view of layers, protocols, and services 2.3 overview of tcp/ip architecture 2.3.1 tcp/ip architecture 2.3.2 tcp/ip protocol: how the layers work together 2.3.3 protocol overview 2.4 the berkeley api 2.4.1 socket system calls 2.4.2 network utility functions 2.5 application layer protocols and tcp/ip utilities 2.5.1 telnet 2.5.2 file transfer protocol 2.5.3 hypertext transfer protocol and the world wide web 2.5.4 ip utilities 2.5.5 tcpdump and network protocol analyzers summary checklist of important terms further reading problems 3 digital transmission fundamentals 3.1 digital representation of information 3.1.1 block-oriented information 3.1.2 stream information 3.2 why digital communications? 3.2.1 comparison of analog and digital transmission 3.2.2 basic properties of digital transmission systems 3.3 digital representation of analog signals 3.3.1 bandwidth of analog signals 3.3.2 sampling of an analog signal 3.3.3 digital transmission of analog signals 3.3.4 snr performance of quantizers 3.4 characterization of communication channels 3.4.1 frequency domain characterization 3.4.2 time domain characterization 3.5 fundamental limits in digital transmission 3.5.1 the nyquist signaling rate 3.5.2 the shannon channel capacity 3.6 line coding 3.7 modems and digital modulation 3.7.1 binary phase modulation 3.7.2 qam and signal constellations 3.7.3 telephone modem standards 3.8 properties of media and digital transmission systems 3.8.1 twisted pair 3.8.2 coaxial cable 3.8.3 optical fiber 3.8.4 radio transmission 3.8.5 lnfrared light 3.9 error detection and correction 3.9.1 error detection 3.9.2 two-dimensional parity checks 3.9.3 internet checksum 3.9.4 polynomial codes 3.9.5 standardized polynomial codes 3.9.6 error-detecting capability of a polynomial code 3.9.7 linear codes 3.9.8 error correction summary checklist of important terms further reading problems appendix 3a: asynchronous data transmission appendix 3b: fourier series appendix 3c: sampling theorem 4 circuit-switching networks 4.1 multiplexing 4.1.1 frequency-division multiplexing 4.1.2 time-division multiplexing 4.1.3 wavelength-division multiplexing 4.2 sonet 4.2.1 sonet multiplexing 4.2.2 sonet frame structure 4.3 transport networks 4.3.1 sonet networks 4.3.2 optical transport networks 4.4 circuit switches 4.4.1 space-division switches 4.4.2 time-division switches 4.5 the telephone network 4.5.1 transmission facilities 4.5.2 end-to-end digital services 4.6 signaling 4.6.1 signaling in the telephone network 4.6.2 signaling system #7architecture 4.7 traffic and overload control in telephone networks 4.7.1 concentration 4.7.2 routing control 4.7.3 overload controls 4.8 cellular telephone networks summary checklist of important terms further reading problems 5 peer-to-peer protocols and data link layer part i: peer-to-peer protocols 5.1 peer-to-peer protocols and service models 5.1.1 service models 5.1.2 examples of services 5.1.3 end to end versus hop by hop 5.2 arq protocols and reliable data transfer service 5.2.1 stop-and-wait arq 5.2.2 go-back-n arq 5.2.3 selective repeat arq 5.3 other peer-to-peer protocols 5.3.1 sliding-window flow control 5.3.2 timing recovery for synchronous services 5.3.3 tcp reliable stream service and flow control part ii: data link controls 5.4 framing 5.5 point-to-point protocol 5.6 hdlc data link control 5.6.1 data link services 5.6.2 hdlc configurations and transfer modes 5.6.3 hdlc frame format 5.6.4 typical frame exchanges 5.7 link sharing using packet multiplexers 5.7.1 statistical multiplexing 5.7.2 speech interpolation and the multiplexing of packetized speech summary checklist of important terms further reading problems appendix 5a: derivation of efficiency of arq protocols 6 medium access control protocols and local area networks part i: medium access control protocols 6.1 multiple access communications 6.2 random access 6.2.1 aloha 6.2.2 slotted aloha 6.2.3 carrier sense multiple access 6.2.4 carrier sense multiple access with collision detection 6.3 scheduling approaches to medium access control 6.3.1 reservation systems 6.3.2 polling 6.3.3 token-passing rings 6.3.4 comparison of scheduling approaches in medium access control 6.3.5 comparison of random access and scheduling medium access controls 6.4 channelization 6.4.1 fdma 6.4.2 tdma 6.4.3 cdma 6.4.4 channelization in telephone cellular networks 6.5 delay performance of mac and channelization schemes 6.5.1 performance of channelization techniques with bursty traffic 6.5.2 performance of polling and token ring systems 6.5.3 random access and csma-cd part ii: local area networks 6.6 lan protocols 6.6.1 lan structure 6.6.2 the medium access control sublayer 6.6.3 the logical link control sublayer 6.7 ethernet and ieee 802.3 lan standard 6.7.1 ethernet protocol 6.7.2 frame structure 6.7.3 physical layers 6.7.4 fast ethernet 6.7.5 gigabit ethernet 6.7.6 10 gigabit ethernet 6.8 token-ring and ieee 802.5 lan standard 6.8.1 token-ring protocol 6.8.2 frame structure 6.9 fddi 6.10 wireless lans and ieee 802.11 standard 6.10.1 ad hoc and infrastructure networks 6.10.2 frame structure and addressing 6.10.3 medium access control 6.10.4 physical layers 6.11 lan bridges and ethernet switches 6.11.1 transparent bridges 6.11.2 source routing bridges 6.11.3 mixed-media bridges 6.11.4 virtual lans summary checklist of important terms further reading problems 7 packet-switching networks 7.1 network services and internal network operation 7.2 packet network topology 7.3 datagrams and virtual circuits 7.3.1 connectionless packet switching 7.3.2 virtual-circuit packet switching 7.3.3 structure of a packet switch 7.4 routing in packet networks 7.4.1 routing algorithm classification 7.4.2 routing tables 7.4.3 hierarchical routing 7.4.4 specialized routing 7.5 shortest-path routing 7.5.1 the bellman-ford algorithm 7.5.2 dijkstra's algorithm 7.5.3 source routing versus hop-by-hop routing 7.5.4 link-state routing versus distance-vector routing 7.6 atm networks 7.7 traffic management at the packet level 7.7.1 fifo and priority queues 7.7.2 fair queueing 7.7.3 weighted fair queueing 7.7.4 random early detection 7.8 traffic management at the flow level 7.8.1 open-loop control 7.8.2 closed-loop control 7.9 traffic management at the flow-aggregate level summary checklist of important terms further reading problems 8 tcp/ip 8.1 the tcp/ip architecture 8.2 the internet protocol 8.2.1 ip packet 8.2.2 ip addressing 8.2.3 subnet addressing 8.2.4 ip routing 8.2.5 classless interdomain routing (cidr) 8.2.6 address resolution 8.2.7 reverse address resolution 8.2.8 fragmentation and reassembly 8.2.9 icmp: error and control messages 8.3 ipv6 8.3.1 header format 8.3.2 network addressing 8.3.3 extension headers 8.3.4 migration issues from ipv4 to ipv6 8.4 user datagram protocol 8.5 transmission control protocol 8.5.1 tcp operation and reliable stream service 8.5.2 tcp protocol 8.5.3 tcp congestion control 8.6 internet routing protocols 8.6.1 routing information protocol 8.6.2 open shortest path first 8.6.3 border gateway protocol 8.7 multicast routing 8.7.1 reverse-path broadcasting 8.7.2 intemet group management protocol 8.7.3 reverse-pa& multicasting 8.7.4 distance-vector multicast routing protocol 8.8 dhcp, nat, and mobile ip 8.8.1 dynamic host configuration protocol 8.8.2 network address translation 8.8.3 mobile ip summary checklist of important terms further reading problems 9 atm networks 9.1 why atm? 9.2 bisdn reference model 9.3 atm layer 9.3.1 atm cell header 9.3.2 virtual connections 9.3.3 qos parameters 9.3.4 traffic descriptors 9.3.5 atm service categories 9.3.6 traffic contracts, connection admission control,and traffic management 9.4 atm adaptation layer 9.4.1 aal1 9.4.2 aal2 9.4.3 aal3/4 9.4.4 aal5 9.4.5 signaling aal 9.4.6 applications, aals, and atm service categories 9.5 atm signaling 9.5.1 atm addressing 9.5.2 uni signaling 9.5.3 pnni signaling 9.6 pnni routing 9.7 classical ip over atm summary checklist of important terms further reading problems 10 advanced network architectures 10.1 integrated services in the internet 10.1.1 guaranteed service 10.1.2 controlled-load service 10.2 rsvp 10.2.1 receiver-initiated reservation 10.2.2 reservation merging 10.2.3 reservation styles 10.2.4 soft state 10.2.5 rsvp message format 10.3 differentiated services 10.3.1 ds field 10.3.2 per-hop behaviors 10.3.3 traffic conditioner 10.3.4 bandwidth broker 10.4 network interconnection models 10.4.1 overlay model 10.4.2 peer-to-peer model 10.5 mpls 10.5.1 fundamentals of labels 10.5.2 label stack and lsp hierarchy 10.5.3 vc merging 10.5.4 label distribution protocols 10.5.5 mpls support for virtual networks 10.5.6 survivability 10.5.7 gmpls 10.6 real-time transport protocol 10.6.1 rtp scenarios and terminology 10.6.2 rtp packet format 10.6.3 rtp control protocol (rtcp) 10.7 session control protocols 10.7.1 session initiation protocol 10.7.2 h. 323 multimedia communication systems 10.7.3 media gateway control protocols summary checklist of important terms further reading problems 11 security protocols 11.1 security and cryptographic algorithms 11.1.1 applications of cryptography to security 11.1.2 key distribution 11.2 security protocols 11.2.1 application scenarios 11.2.2 types of security service 11.2.3 setting up a security association 11.2.4 ipsec 11.2.5 secure sockets layer and transport layer security 11.2.6 802.11 and wired equivalent privacy 11.3 cryptographic algorithms 11.3.1 des 11.3.2 rsa summary checklist of important terms further reading problems 12 multimedia information 12.1 lossless data compression 12.1.1 huffman codes 12.1.2 run-length codes 12.1.3 adaptive data compression codes 12.2 compression of analog signals 12.2.1 adaptive quantizers 12.2.2 predictive coding 12.2.3 transform and subband coding 12.3 image and video coding 12.3.1 discrete cosine transform coding 12.3.2 the jpeg image-coding standard 12.3.3 compression of video signals 12.3.4 the mpeg video-coding standards 12.3.5 mpeg multiplexing summary checklist of important terms further reading problems epilogue appendices a delay and loss performance a.1 delay analysis and little's formula a.1.1 arrival rates and traffic load definitions a.1.2 little's formula a.2 basic queueing models a.2.1 arrival processes a.2.2 service times a.2.3 queueing system classification a.3 m/m/1: a basic multiplexer model a.3.1 m/m/1 steady state probabilities and the notion of stability a.3.2 effect of scale on performance a.3.3 average packet delay in a network a.4 the m/g/1 model a.4.1 service time variability and delay a.4.2 priority queueing systems a.4.3 vacation models and multiplexer performance a.5 erlang b formula: m/m/c/c system further reading b network management b.1 network management overview b.2 simple network management protocol (snmp) b.3 structure of management information b.4 management information base b.5 remote network monitoring further reading index |
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