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MARC Record from marc_nuls

Record ID marc_nuls/NULS_PHC_180925.mrc:134431729:6367
Source marc_nuls
Download Link /show-records/marc_nuls/NULS_PHC_180925.mrc:134431729:6367?format=raw

LEADER: 06367pam 22002894a 4500
001 9919834040001661
005 20150423123025.0
008 000920s2001 maua b 001 0 eng
010 $a 00048524
020 $a0201309769
035 $a(CSdNU)u92491-01national_inst
035 $a(Sirsi) l00048524
035 $a(Sirsi) l00048524
035 $a(Sirsi) 01-AAL-4144
035 $a 00048524
040 $aDLC$cDLC$dDLC$dOrPss
042 $apcc
050 00 $aTK 5105.5$bA28 2001
245 00 $aAd hoc networking /$cCharles E. Perkins, editor.
260 $aBoston :$bAddison-Wesley,$cc2001.
300 $axii, 370 p. :$bill. ;$c25 cm.
504 $aIncludes bibliographical references and index.
505 0 $aAd Hoc Networking: An Introduction -- Model of Operation -- Symmetric Links -- Layer-2 Ad Hoc Solutions -- Proactive versus Reactive Protocols -- Multicast -- Commercial Applications of Ad Hoc Networking -- Conferencing -- Home Networking -- Emergency Services -- Personal Area Networks and Bluetooth -- Embedded Computing Applications -- Sensor Dust -- Automotive/PC Interaction -- Other Envisioned Applications -- Technical and Market Factors Affecting Ad Hoc Networks -- Scalability -- Power Budget versus Latency -- Protocol Deployment and Incompatible Standards -- Wireless Data Rates -- User Education and Acculturation -- Additional Security Exposure -- Spotty Coverage -- General Comments on Routing Protocols -- Description of the Material Presented -- A DoD Perspective on Mobile Ad Hoc Networks -- Motivation -- The Past -- DARPA Packet Radio Network -- Survivable Radio Networks -- Other DoD Efforts in MANET -- Other Efforts in MANET -- The Present -- Tactical Internet -- ELB -- GloMo -- IETF MANET Working Group -- The Future -- Commercial Applications -- DoD -- Open Research Issues -- DSDV: Routing over a Multihop Wireless Network of Mobile Computers -- Overview of Routing Methods -- Link-State -- Distance-Vector -- Destination-Sequenced Distance Vector Protocol -- Protocol Overview -- Route Advertisements -- Route Table Entry Structure -- Responding to Topology Changes -- Route Selection Criteria -- Operating DSDV at Layer 2 -- Extending Base Station Coverage -- Examples of DSDV in Operation -- Damping Fluctuations -- Properties of the DSDV Protocol -- Comparison with other Methods -- Future Work -- Cluster-Based Networks -- Clustering for Transmission Management -- Link-Cluster Architecture -- Clustering for Backbone Formation -- Near-Term Digital Radio Network -- Virtual Subnet Architecture -- Clustering for Routing Efficiency -- Hierarchical Routing -- Clustering -- DSR: The Dynamic Source Routing Protocol for Multihop Wireless Ad Hoc Networks -- Assumptions -- DSR Protocol Description--Overview and Important Properties -- DSR Route Discovery -- DSR Route Maintenance -- Additional Route Discovery Features -- Additional Route Maintenance Features -- Support for Heterogeneous Networks and Mobile IP -- Multicast Routing with DSR -- Location of DSR Functions in the ISO Network Reference Model -- DSR Evaluation -- Simulation Summary -- DSR Implementation and Testbed Summary -- Related Work -- The Ad Hoc On-Demand Distance-Vector Protocol -- AODV Properties -- Unicast Route Establishment -- Route Discovery -- Expanding Ring Search -- Forward Path Setup -- Route Maintenance -- Local Connectivity Management -- Actions after Reboot -- Multicast Route Establishment -- Route Discovery -- Forward Path Setup -- Multicast Route Activation/Deactivation -- Multicast Tree Maintanence -- Actions after Reboot -- Broadcast -- Simulations -- Unicast Simulations -- Multicast Simulations -- Optimizations and Enhancements -- Quality of Service -- Subnet Routing -- AODV and Mobile IP -- Future Work -- Security -- Asymmetric Routing -- Message Formats -- Route Request -- Route Reply -- Route Error -- Multicast Activation -- Group Hello -- Extension Formats -- Hello Interval -- Multicast Group Leader -- Multicast Group Rebuild -- Multicast Group Information -- Maximum Delay -- Minimum Bandwidth -- Configuration Parameters -- ZRP: A Hybrid Framework for Routing in Ad Hoc Networks -- Reconfigurable Wireless Networks -- The Communication Environment and the RWN Model -- The Zone Routing Protocol -- Reactive versus Proactive Routing -- Routing Zones and Intrazone Routing -- Interzone Routing and the Zone Routing Protocol -- ZRP--Formal Description -- Neighbor Discovery Protocol -- The Intrazone Routing Protocol -- The Interzone Routing Protocol -- Evaluation of ZRP -- Performance Results -- Link Reversal Routing -- General Approach -- The Gafni-Bertsekas Algorithm -- The Lightweight Mobile Routing Algorithm -- Protocol Description -- Properties of the Protocol -- The Temporally Ordered Routing Algorithm -- Protocol Description -- Properties of the Protocol -- Comparison of LRR Algorithms -- The Effects of Beaconing on the Battery Life of Ad Hoc Mobile Computers -- Motivation -- Ad Hoc Wireless Networks -- Power Issues -- Smart Batteries and Battery Characteristics -- Associativity Based Routing -- ABR Protocol Description -- ABR Route Discovery Phase -- Handling Mobility in ABR -- ABR Route Deletion Phase -- Effects of Beaconing on Battery Life -- Experimental Hardware -- Experimental Software -- Experimental Results and Observations -- Standalone Beaconing at High Frequencies -- Standalone Beaconing at Low Frequencies -- Beaconing with Neighboring Nodes at High Frequencies -- Beaconing with Neighboring Nodes at Low Frequencies -- Deductions -- Bandwidth-Efficient Link-State Routing in Wireless Networks -- Updating Routes in Wireless Networks -- STAR Description -- Information Stored and Exchanged -- Validating Updates -- Exchanging Update Messages -- Impact of the Link Layer -- Performance Evaluation -- Comparison with Table-Driven Protocols -- Comparison with On-Demand Routing Protocols -- Future Work -- Scalability -- Quality of Service -- Is the Client-Server Model Viable? -- Connecting to the Internet -- Security -- Power Control -- Other Approaches -- Location-Assisted Routing -- Fisheye Routing -- CEDAR -- A Possible Vision of the Future.
650 0 $aComputer networks.
700 1 $aPerkins, Charles E.,$d1951-
948 $a05/09/2001$b05/18/2001
999 $aTK 5105.5 A28 2001$wLC$c1$i31786101426457$d4/15/2004$f4/15/2004$g1 $lCIRCSTACKS$mNULS$rY$sY$tBOOK$u5/18/2001