Verfügbarkeit: Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol

Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol:

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Bibliographische Detailangaben
1. Verfasser:	Dombrowski, Christian (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Herzogenrath Shaker 2017
Ausgabe:	1. Auflage
Schriftenreihe:	Reports on Communications and Distributed Systems 15
Schlagworte:	Ausfallsicheres System Latenzzeit > Informatik Verbindungsschicht Echtzeitverarbeitung Token-passing-Verfahren Kommunikationsprotokoll Machine to Machine Funkübertragung Zuverlässigkeit Automation MAC protocol low-latency reliability ultra-reliable wireless communication wireless networks Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	206 Seiten 44 Illustrationen 21 cm x 14.8 cm, 324 g
ISBN:	9783844055108 384405510X

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 1 INTRODUCTION 1 2 B ACKGROUND AND FUNDAM ENTALS 5 2.1 REAL-TIME MEDIUM A CCESS...................................................................... 5 2.1.1 NAMING CONVENTIONS................................................................... 5 2.1.2 PROTOCOL REQUIREMENTS................................................................ 6 2.1.3 DESIRABLE PROPERTIES ................................................................... 7 2.1.4 STANDARDIZATION: INTEROPERABILITY AND S A FE TY ........................... 8 2.2 WIRELESS MEDIUM ACCESS CONTROL PROTOCOLS............................................ 12 2.2.1 FIXED ACCESS ............................................................................... 12 2.2.2 RANDOM A CCESS............................................................................ 14 2.2.3 DEMAND-DRIVEN A CCESS................................................................ 15 2.3 WIRELESS C H A N N EL..................................................................................... 17 2.3.1 CHARACTERISTICS OF THE PROPAGATION ENVIRONM ENT....................... 18 2.3.2 SELECTIVITY AND D IVERSITY............................................................. 22 2.3.3 DESCRIPTIONS OF THE WIRELESS C H A N N E L ....................................... 23 2.4 COOPERATIVE COMMUNICATION................................................................... 27 2.4.1 HOW TO COOPERATE?...................................................................... 28 2.4.2 WITH WHOM TO COOPERATE? ....................................................... 30 2.4.3 WHEN TO C OOPERATE?................................................................... 31 2.5 V ERIFICATION.............................................................................................. 32 2.5.1 PROBABILISTIC MODEL C H ECK IN G .................................................... 32 2.5.2 EXAMPLE OF ANALYZING A P T A ..................................................... 34 2.6 HARDWARE PLATFORM 37 3 M OTIVATION 39 3.1 CHALLENGES................................................................................................. 39 3.2 RELATED W O RK ........................................................................................... 44 3.2.1 REAL-TIME MAC PROTOCOLS.......................................................... 44 3.2.2 COOPERATIVE COMMUNICATION....................................................... 50 3.2.3 PROTOCOL ANALYSIS AND VERIFICATION.............................................. 53 3.3 C ONTRIBUTIONS........................................................................................... 56 4 E CHOR ING - A R EAL-T IM E W IRELESS M AC P RO TO CO L 59 4.1 DEFICIENCIES OF LEGACY TOKEN-PASSING PROTOCOLS..................................... 59 4.2 BASIC PROTOCOL........................................................................................... 61 4.2.1 INITIALIZATION PROCEDURE ............................................................. 63 4.2.2 NORMAL PROCEDURE ...................................................................... 64 4.2.3 JOIN AND LEAVE P RO C E D U RE .......................................................... 67 4.2.4 FAILURE PROCEDURE......................................................................... 70 4.2.5 SELF-DIAGNOSIS............................................................................... 72 4.3 MAC RELIABILITY EXTENSION...................................................................... 72 4.4 PHY RELIABILITY EXTENSION...................................................................... 73 4.4.1 HOW TO COOPERATE?...................................................................... 74 4.4.2 DECISION BASED ON CHANNEL STATE IN FO RM A TIO N ........................ 76 4.4.3 DECISION BASED ON LIMITED FEEDBACK ........................................ 79 5 A NALYTICAL PROTO CO L E VALUATION 81 5.1 PROTOCOLS, EVALUATION METRICS, AND SYSTEM M O D E L .............................. 81 5.1.1 EVALUATION M E TRIC S...................................................................... 82 5.1.2 ENVIRONMENT M O D E LS................................................................... 83 5.2 PROTOCOL MODELS........................................................................................ 86 5.2.1 ECHORING MODEL ......................................................................... 86 5.2.2 IWLAN MODEL ............................................................................ 91 5.2.3 WISA M O D E L............................................................................... 93 5.3 JOIN AND LEAVE P RO C E D U RE ...................................................................... 94 5.3.1 SELF-CONTROLLING JOIN P RO C ED U RE................................................. 94 5.3.2 STARTUP D U RA TIO N ......................................................................... 96 5.4 NORMAL PROCEDURE..................................................................................... 98 5.4.1 PAYLOAD DELIVERY AND TOKEN FORWARDING PROCESS ..................... 98 5.4.2 PERFORMANCE COMPARISON OF THREE SYSTEMS ................................. 100 5.5 MAC RELIABILITY EXTENSION ........................................................................ 105 5.5.1 ADVANTAGES OF RECOVERY STRATEGIES .............................................105 5.5.2 REALIZING SYNERGY EFFECTS ............................................................... 106 5.5.3 ON THE NECESSITY OF DEDICATED TOKEN P ACK E TS...........................108 5.6 PHY RELIABILITY EXTENSION ........................................................................ 110 5.6.1 COOPERATION M O D EL .................................................................... 110 5.6.2 PERFORMANCE UNDER AVERAGE C S I ............................................... I L L 5.6.3 PERFORMANCE UNDER INSTANTANEOUS CSI (LIMITED FEEDBACK) . . 113 5.6.4 PERFORMANCE UNDER INSTANTANEOUS CSI (FULL KNOWLEDGE) . . . 114 5.7 S U M M A RY ....................................................................................................116 6 P RACTICAL P ROTOCO L E VALUATION 117 6.1 PROTOCOLS, EVALUATION METRICS, AND METHODOLOGY .................................... 117 6.1.1 EVALUATION M E TRIC S .................................................................... 118 6.1.2 METHODOLOGY AND MEASUREMENT ENVIRONMENT .......................... 119 6.1.3 PHY LAYER CHARACTERIZATION......................................................... 121 6.1.4 ENVIRONMENT CHARACTERIZATION ...................................................... 123 6.2 GENERAL F EASIB ILITY .................................................................................... 125 6.2.1 PROTOCOL EVALUATION FOR ALL STATIONS.............................................125 6.2.2 PROTOCOL EVALUATION FOR VARYING P ARAM E TERS .............................. 126 6.3 MAC RELIABILITY EXTENSION........................................................................ 130 6.3.1 ADVANTAGES OF RECOVERY STRATEGIES .............................................131 6.3.2 REALIZING SYNERGY EFFECTS ............................................................... 133 6.3.3 ON THE NECESSITY OF DEDICATED TOKEN P A C K E TS...........................134 6.4 PHY RELIABILITY EXTENSION ........................................................................ 136 6.4.1 ADDITIONAL EVALUATION M ETRICS ...................................................... 136 6.4.2 WHEN TO D ECIDE? ........................................................................... 137 6.4.3 WITH WHOM TO COOPERATE? ......................................................... 142 6.5 S U M M A RY ....................................................................................................146 7 V ERIFICATION-BASED PRO TO CO L D ESIGN 147 7.1 PROTOCOL M O D E L.........................................................................................149 7.1.1 STATION M O D U LE .............................................................................. 150 7.1.2 CHANNEL MODULE ........................................................................... 153 7.1.3 MODELING THE ENVIRONMENT ............................................................ 155 7.2 PROTOCOLS, EVALUATION METRICS, AND METHODOLOGY .................................... 158 7.3 PERFORMANCE PREDICTION AND FORMAL CORRECTNESS.....................................160 7.3.1 PERFORMANCE PREDICTION .................................................................. 161 7.3.2 IMPLICATIONS FOR THE PROTOCOL DESIGN .......................................... 164 7.4 VALIDATION OF PREDICTIONS ........................................................................... 165 7.4.1 ACCURACY OF PREDICTIONS ............................................................... 166 7.4.2 IMPACTS OF CHANNEL PARAMETERIZATION..........................................168 7.4.3 MODELING OF COOPERATION ............................................................... 169 7.5 PRACTICAL LIMITS OF VERIFICATION .................................................................. 170 7.5.1 EVALUATION METRICS, AND METHODOLOGY..........................................171 7.5.2 C OM PLEXITY.....................................................................................172 7.5.3 PRECISION...........................................................................................173 7.6 SUMMARY ....................................................................................................174 8 C ONCLUSIONS 177 8.1 SUMMARY OF CONTRIBUTIONS ........................................................................ 177 8.2 O U TLO O K .......................................................................................................179 BIBLIOGRAPHY 181 A A P PENDIX 195 A.L DERIVATION OF COOPERATION M O D E L...........................................................195 A.2 OPTIMIZATION PROBLEM OF CSI-BASED RELAY SELECTION .............................. 196 A.3 ANALYTICAL ECHORING M O D E L....................................................................197 A.4 WIRELESS CHANNEL CHARACTERIZATIONS.......................................................199 B OWN P UBLICATION S AND SCIENTIFIC ACKNOW LEDGM ENTS 201 G LOSSARY 203
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author	Dombrowski, Christian
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discipline	Informatik Elektrotechnik / Elektronik / Nachrichtentechnik
edition	1. Auflage
format	Thesis Book
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series	Reports on Communications and Distributed Systems
series2	Reports on Communications and Distributed Systems
spelling	Dombrowski, Christian Verfasser (DE-588)1140792415 aut Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol Christian Dombrowski 1. Auflage 201710 Herzogenrath Shaker 2017 206 Seiten 44 Illustrationen 21 cm x 14.8 cm, 324 g txt rdacontent n rdamedia nc rdacarrier Reports on Communications and Distributed Systems 15 Dissertation RWTH Aachen University 2017 Ausfallsicheres System (DE-588)4719040-1 gnd rswk-swf Latenzzeit Informatik (DE-588)4504941-5 gnd rswk-swf Verbindungsschicht (DE-588)4817318-6 gnd rswk-swf Echtzeitverarbeitung (DE-588)4151002-1 gnd rswk-swf Token-passing-Verfahren (DE-588)4284317-0 gnd rswk-swf Kommunikationsprotokoll (DE-588)4128252-8 gnd rswk-swf Machine to Machine (DE-588)1076175724 gnd rswk-swf Funkübertragung (DE-588)4018941-7 gnd rswk-swf Zuverlässigkeit (DE-588)4059245-5 gnd rswk-swf Automation (DE-588)4003957-2 gnd rswk-swf MAC protocol low-latency reliability ultra-reliable wireless communication wireless networks (DE-588)4113937-9 Hochschulschrift gnd-content Automation (DE-588)4003957-2 s Machine to Machine (DE-588)1076175724 s Funkübertragung (DE-588)4018941-7 s Verbindungsschicht (DE-588)4817318-6 s Kommunikationsprotokoll (DE-588)4128252-8 s Token-passing-Verfahren (DE-588)4284317-0 s Echtzeitverarbeitung (DE-588)4151002-1 s Ausfallsicheres System (DE-588)4719040-1 s Latenzzeit Informatik (DE-588)4504941-5 s Zuverlässigkeit (DE-588)4059245-5 s DE-604 Shaker Verlag (DE-588)1064118135 pbl Reports on Communications and Distributed Systems 15 (DE-604)BV041443882 15 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029959413&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Dombrowski, Christian Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol Reports on Communications and Distributed Systems Ausfallsicheres System (DE-588)4719040-1 gnd Latenzzeit Informatik (DE-588)4504941-5 gnd Verbindungsschicht (DE-588)4817318-6 gnd Echtzeitverarbeitung (DE-588)4151002-1 gnd Token-passing-Verfahren (DE-588)4284317-0 gnd Kommunikationsprotokoll (DE-588)4128252-8 gnd Machine to Machine (DE-588)1076175724 gnd Funkübertragung (DE-588)4018941-7 gnd Zuverlässigkeit (DE-588)4059245-5 gnd Automation (DE-588)4003957-2 gnd
subject_GND	(DE-588)4719040-1 (DE-588)4504941-5 (DE-588)4817318-6 (DE-588)4151002-1 (DE-588)4284317-0 (DE-588)4128252-8 (DE-588)1076175724 (DE-588)4018941-7 (DE-588)4059245-5 (DE-588)4003957-2 (DE-588)4113937-9
title	Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol
title_auth	Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol
title_exact_search	Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol
title_full	Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol Christian Dombrowski
title_fullStr	Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol Christian Dombrowski
title_full_unstemmed	Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol Christian Dombrowski
title_short	Design and Evaluation of an Ultra-Reliable Low-Latency Wireless Network Protocol
title_sort	design and evaluation of an ultra reliable low latency wireless network protocol
topic	Ausfallsicheres System (DE-588)4719040-1 gnd Latenzzeit Informatik (DE-588)4504941-5 gnd Verbindungsschicht (DE-588)4817318-6 gnd Echtzeitverarbeitung (DE-588)4151002-1 gnd Token-passing-Verfahren (DE-588)4284317-0 gnd Kommunikationsprotokoll (DE-588)4128252-8 gnd Machine to Machine (DE-588)1076175724 gnd Funkübertragung (DE-588)4018941-7 gnd Zuverlässigkeit (DE-588)4059245-5 gnd Automation (DE-588)4003957-2 gnd
topic_facet	Ausfallsicheres System Latenzzeit Informatik Verbindungsschicht Echtzeitverarbeitung Token-passing-Verfahren Kommunikationsprotokoll Machine to Machine Funkübertragung Zuverlässigkeit Automation Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029959413&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV041443882
work_keys_str_mv	AT dombrowskichristian designandevaluationofanultrareliablelowlatencywirelessnetworkprotocol AT shakerverlag designandevaluationofanultrareliablelowlatencywirelessnetworkprotocol

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