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Communication networks :a concise introduction /

紀錄類型:	書目-電子資源 : Monograph/item
杜威分類號:	004.6
書名/作者:	Communication networks : : a concise introduction // Jean Walrand, Shyam Parekh.
作者:	Walrand, Jean,
其他作者:	Parekh, Shyam P.,
出版者:	[San Rafael, California] : : Morgan & Claypool,, 2018.
面頁冊數:	1 PDF (xx, 220 pages) : : illustrations.
附註:	Part of: Synthesis digital library of engineering and computer science.
標題:	Computer networks.
標題:	Wireless communication systems.
ISBN:	9781627058995
書目註:	Includes bibliographical references (pages 207-214) and index.
內容註:	1. The Internet -- 1.1 Basic operations -- 1.1.1 Hosts, routers, links -- 1.1.2 Packet switching -- 1.1.3 Addressing -- 1.1.4 Routing -- 1.1.5 Error detection -- 1.1.6 Retransmission of erroneous packets -- 1.1.7 Congestion control -- 1.1.8 Flow control -- 1.2 DNS, HTTP, and WWW -- 1.2.1 DNS -- 1.2.2 HTTP and WWW -- 1.3 Summary -- 1.4 Problems -- 1.5 References --
摘要、提要註:	This book results from many years of teaching an upper division course on communication networks in the EECS department at the University of California, Berkeley. It is motivated by the perceived need for an easily accessible textbook that puts emphasis on the core concepts behind current and next generation networks. After an overview of how today's Internet works and a discussion of the main principles behind its architecture, we discuss the key ideas behind Ethernet, WiFi networks, routing, internetworking, and TCP. To make the book as self-contained as possible, brief discussions of probability and Markov chain concepts are included in the appendices. This is followed by a brief discussion of mathematical models that provide insight into the operations of network protocols. Next, the main ideas behind the new generation of wireless networks based on LTE, and the notion of QoS are presented. A concise discussion of the physical layer technologies underlying various networks is also included. Finally, a sampling of topics is presented that may have significant influence on the future evolution of networks, including overlay networks like content delivery and peer-to-peer networks, sensor networks, distributed algorithms, Byzantine agreement, source compression, SDN and NFV, and Internet of Things.
電子資源:	http://ieeexplore.ieee.org/servlet/opac?bknumber=8168886

Communication networks :a concise introduction /
Walrand, Jean,

Communication networks :a concise introduction /Jean Walrand, Shyam Parekh. - Second edition - [San Rafael, California] :Morgan & Claypool,2018. - 1 PDF (xx, 220 pages) :illustrations. - Synthesis lectures on communication networks,# 201935-4193 ;. - Synthesis digital library of engineering and computer science..

Part of: Synthesis digital library of engineering and computer science.

Includes bibliographical references (pages 207-214) and index.

1. The Internet -- 1.1 Basic operations -- 1.1.1 Hosts, routers, links -- 1.1.2 Packet switching -- 1.1.3 Addressing -- 1.1.4 Routing -- 1.1.5 Error detection -- 1.1.6 Retransmission of erroneous packets -- 1.1.7 Congestion control -- 1.1.8 Flow control -- 1.2 DNS, HTTP, and WWW -- 1.2.1 DNS -- 1.2.2 HTTP and WWW -- 1.3 Summary -- 1.4 Problems -- 1.5 References --

Abstract freely available; full-text restricted to subscribers or individual document purchasers.

Compendex

This book results from many years of teaching an upper division course on communication networks in the EECS department at the University of California, Berkeley. It is motivated by the perceived need for an easily accessible textbook that puts emphasis on the core concepts behind current and next generation networks. After an overview of how today's Internet works and a discussion of the main principles behind its architecture, we discuss the key ideas behind Ethernet, WiFi networks, routing, internetworking, and TCP. To make the book as self-contained as possible, brief discussions of probability and Markov chain concepts are included in the appendices. This is followed by a brief discussion of mathematical models that provide insight into the operations of network protocols. Next, the main ideas behind the new generation of wireless networks based on LTE, and the notion of QoS are presented. A concise discussion of the physical layer technologies underlying various networks is also included. Finally, a sampling of topics is presented that may have significant influence on the future evolution of networks, including overlay networks like content delivery and peer-to-peer networks, sensor networks, distributed algorithms, Byzantine agreement, source compression, SDN and NFV, and Internet of Things.

Mode of access: World Wide Web.

ISBN: 9781627058995

Standard No.: 10.2200/S00804ED2V01Y201709CNT020doiSubjects--Topical Terms:

174051
Computer networks.
Subjects--Index Terms:

InternetIndex Terms--Genre/Form:

336502
Electronic books.

LC Class. No.: TK5105.5 / .W253 2018

Dewey Class. No.: 004.6

Communication networks :a concise introduction /
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245 1 0 $a Communication networks : $b a concise introduction / $c Jean Walrand, Shyam Parekh.
250 $a Second edition
260 1 $a [San Rafael, California] : $b Morgan & Claypool, $c 2018.
264 1 $a [San Rafael, California] : $b Morgan & Claypool, $c 2018.
300 $a 1 PDF (xx, 220 pages) : $b illustrations.
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490 1 $a Synthesis lectures on communication networks, $x 1935-4193 ; $v # 20
500 $a Part of: Synthesis digital library of engineering and computer science.
504 $a Includes bibliographical references (pages 207-214) and index.
505 0 $a 1. The Internet -- 1.1 Basic operations -- 1.1.1 Hosts, routers, links -- 1.1.2 Packet switching -- 1.1.3 Addressing -- 1.1.4 Routing -- 1.1.5 Error detection -- 1.1.6 Retransmission of erroneous packets -- 1.1.7 Congestion control -- 1.1.8 Flow control -- 1.2 DNS, HTTP, and WWW -- 1.2.1 DNS -- 1.2.2 HTTP and WWW -- 1.3 Summary -- 1.4 Problems -- 1.5 References --
505 8 $a 2. Principles -- 2.1 Sharing -- 2.2 Metrics -- 2.2.1 Link rate -- 2.2.2 Link bandwidth and capacity -- 2.2.3 Delay -- 2.2.4 Throughput -- 2.2.5 Delay jitter -- 2.2.6 M/M/1 queue -- 2.2.7 Little's result -- 2.2.8 Fairness -- 2.3 Scalability -- 2.3.1 Location-based addressing -- 2.3.2 Two-level routing -- 2.3.3 Best effort service -- 2.3.4 End-to-end principle and stateless routers -- 2.3.5 Hierarchical naming -- 2.4 Application and technology independence -- 2.4.1 Layers -- 2.5 Application topology -- 2.5.1 Client/server -- 2.5.2 P2P -- 2.5.3 Cloud computing -- 2.5.4 Content distribution -- 2.5.5 Multicast/anycast -- 2.5.6 Push/pull -- 2.5.7 Discovery -- 2.6 Summary -- 2.7 Problems -- 2.8 References --
505 8 $a 3. Ethernet -- 3.1 Typical installation -- 3.2 History of Ethernet -- 3.2.1 Aloha network -- 3.2.2 Cable Ethernet -- 3.2.3 Hub Ethernet -- 3.2.4 Switched Ethernet -- 3.3 Addresses -- 3.4 Frame -- 3.5 Physical layer -- 3.6 Switched Ethernet -- 3.6.1 Example -- 3.6.2 Learning -- 3.6.3 Spanning tree protocol -- 3.7 Aloha -- 3.7.1 Time-slotted version -- 3.8 Non-slotted Aloha -- 3.9 Hub Ethernet -- 3.9.1 Maximum collision detection time -- 3.10 Appendix: probability -- 3.10.1 Probability -- 3.10.2 Additivity for exclusive events -- 3.10.3 Independent events -- 3.10.4 Slotted Aloha -- 3.10.5 Non-slotted Aloha -- 3.10.6 Waiting for success -- 3.10.7 Hub Ethernet -- 3.11 Summary -- 3.12 Problems -- 3.13 References --
505 8 $a 4. WiFi -- 4.1 Basic operations -- 4.2 Medium access control (MAC) -- 4.2.1 MAC protocol -- 4.2.2 Enhancements for medium access -- 4.2.3 MAC addresses -- 4.3 Physical layer -- 4.4 Efficiency analysis of MAC protocol -- 4.4.1 Single device -- 4.4.2 Multiple devices -- 4.5 Recent advances -- 4.5.1 IEEE 802.11n--introduction of MIMO in WiFi -- 4.5.2 IEEE 802.11ad--WiFi in millimeter wave spectrum -- 4.5.3 IEEE 802.11ac--introduction of MU-MIMO in WiFi -- 4.5.4 IEEE 802.11ah--WiFi for IoT and M2M -- 4.5.5 Peer-to-peer WiFi -- 4.6 Appendix: Markov chains -- 4.7 Summary -- 4.8 Problems -- 4.9 References --
505 8 $a 5. Routing -- 5.1 Domains and two-level routing -- 5.1.1 Scalability -- 5.1.2 Transit and peering -- 5.2 Inter-domain routing -- 5.2.1 Path vector algorithm -- 5.2.2 Possible oscillations -- 5.2.3 Multi-exit discriminators -- 5.3 Intra-domain shortest path routing -- 5.3.1 Dijkstra's algorithm and link state -- 5.3.2 Bellman-Ford and distance vector -- 5.4 Anycast, multicast -- 5.4.1 Anycast -- 5.4.2 Multicast -- 5.4.3 Forward error correction -- 5.4.4 Network coding -- 5.5 Ad hoc networks -- 5.5.1 AODV -- 5.5.2 OLSR -- 5.5.3 Ant routing -- 5.5.4 Geographic routing -- 5.5.5 Backpressure routing -- 5.6 Summary -- 5.7 Problems -- 5.8 References --
505 8 $a 6. Internetworking -- 6.1 Objective -- 6.2 Basic components: Mask, Gateway, ARP -- 6.2.1 Addresses and subnets -- 6.2.2 Gateway -- 6.2.3 DNS server -- 6.2.4 ARP -- 6.2.5 Configuration -- 6.3 Examples -- 6.3.1 Same subnet -- 6.3.2 Different subnets -- 6.3.3 Finding IP addresses -- 6.3.4 Fragmentation -- 6.4 DHCP -- 6.5 NAT -- 6.6 Summary -- 6.7 Problems -- 6.8 References --
505 8 $a 7. Transport -- 7.1 Transport services -- 7.2 Transport header -- 7.3 TCP states -- 7.4 Error control -- 7.4.1 Stop-and-wait -- 7.4.2 Go Back N -- 7.4.3 Selective acknowledgments -- 7.4.4 Timers -- 7.5 Congestion control -- 7.5.1 AIMD -- 7.5.2 Refinements: fast retransmit and fast recovery -- 7.5.3 Adjusting the rate -- 7.5.4 TCP window size -- 7.5.5 Terminology -- 7.6 Flow control -- 7.7 Alternative congestion control schemes -- 7.8 Summary -- 7.9 Problems -- 7.10 References --
505 8 $a 8. Models -- 8.1 Graphs -- 8.1.1 Max-flow, min-cut -- 8.1.2 Coloring and MAC protocols -- 8.2 Queues -- 8.2.1 M/M/1 queue -- 8.2.2 Jackson networks -- 8.2.3 Queuing vs. communication networks -- 8.3 The role of layers -- 8.4 Congestion control -- 8.4.1 Fairness vs. throughput -- 8.4.2 Distributed congestion control -- 8.4.3 TCP revisited -- 8.5 Dynamic routing and congestion control -- 8.6 Wireless -- 8.7 Appendix: Justification for primal-dual theorem -- 8.8 Summary -- 8.9 Problems -- 8.10 References --
505 8 $a 9. LTE -- 9.1 Cellular network -- 9.2 Technology evolution -- 9.3 Key aspects of LTE -- 9.3.1 LTE system architecture -- 9.3.2 Physical layer -- 9.3.3 QoS support -- 9.3.4 Scheduler -- 9.4 LTE-advanced -- 9.4.1 Carrier aggregation -- 9.4.2 Enhanced MIMO support -- 9.4.3 Relay nodes (RNs) -- 9.4.4 Coordinated multi point operation (CoMP) -- 9.5 5G -- 9.6 Summary -- 9.7 Problems -- 9.8 References --
505 8 $a 10. QOS -- 10.1 Overview -- 10.2 Traffic shaping -- 10.2.1 Leaky buckets -- 10.2.2 Delay bounds -- 10.3 Scheduling -- 10.3.1 GPS -- 10.3.2 WFQ -- 10.4 Regulated flows and WFQ -- 10.5 End-to-end QoS -- 10.6 End-to-end admission control -- 10.7 Net neutrality -- 10.8 Summary -- 10.9 Problems -- 10.10 References --
505 8 $a 11. Physical layer -- 11.1 How to transport bits? -- 11.2 Link characteristics -- 11.3 Wired and wireless links -- 11.3.1 Modulation schemes: BPSK, QPSK, QAM -- 11.3.2 Inter-cell interference and OFDM -- 11.4 Optical links -- 11.4.1 Operation of fiber -- 11.4.2 OOK modulation -- 11.4.3 Wavelength division multiplexing -- 11.4.4 Optical switching -- 11.4.5 Passive optical network -- 11.5 Summary -- 11.6 References --
505 8 $a 12. Additional topics -- 12.1 Switches -- 12.1.1 Modular switches -- 12.1.2 Switched crossbars -- 12.2 Overlay networks -- 12.2.1 Applications: CDN and P2P -- 12.2.2 Routing in overlay networks -- 12.3 How popular P2P protocols work -- 12.3.1 1st generation: server-client based -- 12.3.2 2nd generation: centralized directory based -- 12.3.3 3rd generation: purely distributed -- 12.3.4 Advent of hierarchical overlay--super nodes -- 12.3.5 Advanced distributed file sharing: BitTorrent -- 12.4 Sensor networks -- 12.4.1 Design issues -- 12.5 Distributed applications -- 12.5.1 Bellman-Ford routing algorithm -- 12.5.2 Power adjustment -- 12.6 Byzantine agreement -- 12.6.1 Agreeing over an unreliable channel -- 12.6.2 Consensus in the presence of adversaries -- 12.7 Source compression -- 12.8 SDN and NFV -- 12.8.1 SDN architecture -- 12.8.2 New services enabled by SDN -- 12.8.3 Knowledge-defined networking -- 12.8.4 Management framework for NFV -- 12.9 Internet of things (IoT) -- 12.9.1 Remote computing and storage paradigms -- 12.10 Summary -- 12.11 Problems -- 12.12 References --
505 8 $a Bibliography -- Authors' biographies -- Index.
506 $a Abstract freely available; full-text restricted to subscribers or individual document purchasers.
510 0 $a Compendex
510 0 $a INSPEC
510 0 $a Google scholar
510 0 $a Google book search
520 3 $a This book results from many years of teaching an upper division course on communication networks in the EECS department at the University of California, Berkeley. It is motivated by the perceived need for an easily accessible textbook that puts emphasis on the core concepts behind current and next generation networks. After an overview of how today's Internet works and a discussion of the main principles behind its architecture, we discuss the key ideas behind Ethernet, WiFi networks, routing, internetworking, and TCP. To make the book as self-contained as possible, brief discussions of probability and Markov chain concepts are included in the appendices. This is followed by a brief discussion of mathematical models that provide insight into the operations of network protocols. Next, the main ideas behind the new generation of wireless networks based on LTE, and the notion of QoS are presented. A concise discussion of the physical layer technologies underlying various networks is also included. Finally, a sampling of topics is presented that may have significant influence on the future evolution of networks, including overlay networks like content delivery and peer-to-peer networks, sensor networks, distributed algorithms, Byzantine agreement, source compression, SDN and NFV, and Internet of Things.
530 $a Also available in print.
538 $a Mode of access: World Wide Web.
538 $a System requirements: Adobe Acrobat Reader.
588 $a Title from PDF title page (viewed on December 12, 2017).
650 0 $a Computer networks. $3 174051
650 0 $a Wireless communication systems. $3 338331
653 $a Internet
653 $a Ethernet
653 $a WiFi
653 $a Routing
653 $a Bellman-Ford algorithm
653 $a Dijkstra algorithm
653 $a TCP
653 $a Congestion Control
653 $a Flow Control
653 $a QoS
653 $a LTE
653 $a Peer-to-Peer Networks
653 $a SDN
653 $a NFV
653 $a IoT
655 0 $a Electronic books. $2 local $3 336502
700 1 $a Parekh, Shyam P., $e author. $3 729044
776 0 8 $i Print version: $z 9781627058872 $z 9781681736150
830 0 $a Synthesis digital library of engineering and computer science. $3 461208
830 0 $a Synthesis lectures on communication networks ; $v # 21. $x 1935-4193 $3 728958
856 4 2 $3 Abstract with links to resource $u http://ieeexplore.ieee.org/servlet/opac?bknumber=8168886