Verfügbarkeit: Multi-connectivity strategies for vehicular and robotic communications

Multi-connectivity strategies for vehicular and robotic communications:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Güldenring, Johannes 1988- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Düren Shaker Verlag 2022
Schriftenreihe:	Dortmunder Beiträge zu Kommunikationsnetzen und -systemen Band 22
Schlagworte:	Flugkörper Car-to-Car-Kommunikation Autonomes Fahrzeug Mobiler Roboter Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	X, 177 Seiten Illustrationen, Diagramme
ISBN:	9783844085822 3844085823

Internformat

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adam_text	CONTENTS ABSTRACT 111 KURZFASSUNG V 1 VEHICULAR COMMUNICATION: AN INTRODUCTION 1 1.1 INTRODUCTION ................................................................................ 1 1.1.1 SCENARIO I: CROWD-SOURCED VEHICLE BIG DATA ................. 2 1.1.2 SCENARIO II: ENABLING RELIABLE COMMUNICATION FOR TELE OPERATED RESCUE ROBOTS ................................................. 3 1.2 RESEARCH CHALLENGES AND PROBLEM STATEMENT .............................. 6 1.2.1 VEHICULAR BIG DATA CHALLENGES ........................................ 6 1.2.2 CHALLENGES OF TELEOPERATING ROBOTS ............................... 7 1.3 METHODOLOGY AND SOLUTION APPROACH ......................................... 8 1.4 OUTLINE ......................................................................................... 11 2 RELATED WORK AND SELECTED TECHNOLOGICAL BASICS 13 2.1 VEHICULAR COMMUNICATION .......................................................... 13 2.1.1 MASSIVE CAR-TO-CLOUD DATA TRANSFERS ............................. 13 2.1.2 CLOUD SYSTEMS FOR VEHICLE DATA EXCHANGE .................... 15 2.1.3 DATA MODELS FOR VEHICLE BIG DATA (VBD) AGGREGATION . . 16 2.2 RELIABLE COMMUNICATION FOR RESCUE ROBOTICS ............................. 17 2.3 REVIEW OF (MULTI-CONNECTIVITY) TRANSPORT PROTOCOLS ....... 19 2.3.1 TRANSPORT LAYER PROTOCOLS .............................................. 19 2.3.2 MULTI-CONNECTIVITY PROTOCOLS ......................................... 21 2.3.3 MULTI-CONNECTIVITY FOR PAYLOAD AND VIDEO TRANSPORTATION 25 3 COMMON VEHICLE INFORMATION MODEL (CVIM) FOR RESOURCE EFFICIENT CODING OF VEHICULAR SENSOR DATA 27 3.1 INTRODUCTION ................................................................................ 27 3.2 FROM SENSOR TO CONSUMER: THE VEHICLE BIG DATA (VBD) PRO CESSING CHAIN ............................................................................. 28 3.3 ECOSYSTEM AND SYSTEM DESIGN REQUIREMENTS FOR VBD AGGREGATION 29 3.4 DEFINITION OF THE COMMON VEHICLE INFORMATION MODEL (CVIM) . 33 3.4.1 SIGNAL LAYER ..................................................................... 34 3.4.2 MEASUREMENT CHANNEL LAYER ......................................... 34 CONTENTS 3.4.3 DATA PACKETS .................................................................. 36 3.5 CVIM REFERENCE IMPLEMENTATION AND EXAMPLE SERVICES ............ 38 3.5.1 EXAMPLE SERVICE 1: VEHICLE BIG DATA-BASED HYPER-LOCAL WEATHER PREDICTION .......................................................... 38 3.5.2 EXAMPLE SERVICE 2: ROAD QUALITY MONITORING USING VEHICLE BIG DATA ........................................................................... 39 3.5.3 EXAMPLE SERVICE 3: VEHICLE SPEED ESTIMATION USING GEO HISTOGRAMS ..................................................................... 40 3.6 ESTIMATE OF DATA SIZES ............................................................ 40 3.7 SUMMARY ................................................................................ 44 4 PERFORMANCE IMPROVEMENTS OF DATA UPLOADS 45 4.1 INTRODUCTION .......................................................................... 45 4.2 EXPLOITING CHANNEL-AWARENESS FOR VEHICULAR DATA UPLOADS ... 46 4.2.1 ADVANCED CAR-TO-CLOUD TRANSMISSION STRATEGIES .... 47 4.2.2 COMMUNICATION PLATFORM FOR EMPIRICAL EVALUATION ... 49 4.2.3 DISCUSSION OF EXPERIMENTAL DRIVE-TEST RESULTS .............. 50 4.3 TRANSPORT LAYER OPTIMIZATIONS .................................................... 54 4.3.1 SCALANC FOR RELIABLE CAR-TO-CLOUD DATA TRANSFERS . ... 54 4.3.2 SCALANC HARDWARE-IN-THE-LOOP (HIL) EVALUATION METH ODOLOGY ........................................................................... 56 4.3.3 EXPERIMENT SETUP .............................................................. 56 4.3.4 PARAMETRIZATION ................................................................. 57 4.3.5 CAR-TO-CLOUD DATA UPLOAD RESULTS ................................. 58 4.4 MULTI-CONNECTIVITY ENABLED DATA DELIVERY ................................ 60 4.4.1 CAT EXTENSION FOR MULTI-CONNECTIVITY ........................... 62 4.4.2 LINK SELECTION ................................................................... 63 4.5 SUMMARY ........................................................................................ 66 5 SCALABILITY ANALYSIS OF CVIM CAR-TO-CLOUD DATA TRANSFERS 67 5.1 INTRODUCTION .................................................................................. 67 5.2 METHODOLOGY .................................................................................. 68 5.2.1 ENVIRONMENT MODEL AND SCENARIO DEFINITION ................. 69 5.2.2 VEHICLE TRAFFIC SIMULATION .............................................. 69 5.2.3 COMMUNICATION MODEL .................................................... 71 5.3 SINGLE CONNECTIVITY EVALUATION ..................................................... 73 5.4 MULTI-CONNECTIVITY RESULTS ........................................................... 75 5.4.1 MULTI-CONNECTIVITY CAT THROUGHPUT IMPROVEMENT . . . 75 VIII CONTENTS 5.4.2 AGE OF INFORMATION (AOI) TRADE-OFF ............................ 76 5.4.3 CHANNEL-QUALITY AND EFFICIENCY IMPROVEMENTS ............ 78 5.5 SUMMARY ....................................................................................... 79 6 SKATES: INTEROPERABLE MULTI-RAT COMMUNICATION FOR RELI ABLE ROBOT TELEOPERATION 81 6.1 INTRODUCTION ................................................................................. 81 6.2 DETAILED SYSTEM CONCEPT AND IMPLEMENTATION ASPECTS ............. 84 6.2.1 ENABLING MULTI-CONNECTIVITY AND SEAMLESS HANDOVERS . 85 6.2.2 TRANSPARENT PROTOCOL TUNNELLING ............................... 86 6.2.3 PROVIDING SECURITY AND MUTUAL ENDPOINT DISCOVERY ... 88 6.2.4 COMMUNICATION LINK HEALTH MONITORING ................... 89 6.3 SKATES EXPERIMENTAL EVALUATION ............................................... 89 6.3.1 ROBOT SETUP AND EQUIPMENT ....................................... 89 6.3.2 SCENARIO DESCRIPTION ................................................... 91 6.3.3 EXPERIMENTAL RESULTS ................................................... 92 6.4 CONCLUSION .................................................................................... 95 7 HETEROGENEOUS MULTI-CONNECTIVITY FOR MARITIME SEARCH AND RESCUE (SAR) MISSIONS 97 7.1 INTRODUCTION ................................................................................. 97 7.2 HEIGHT DEPENDENT MULTI-CONNECTIVITY MARITIME AIR-TO-GROUND CHANNEL MODEL ............................................................................. 99 7.2.1 ANALYTIC MARITIME CHANNEL MODEL DESCRIPTION ........... 100 7.2.2 EVALUATION OF ANALYTIC MODEL ........................................... 102 7.2.3 HARDWARE-IN-THE-LOOP (HIL) EXPERIMENTAL EVALUATION . 105 7.3 EMPIRIC EVALUATION OF AIR-TO-GROUND COMMUNICATION ............... 110 7.3.1 SYSTEM SETUP AND AIR-TO-GROUND LINK CONFIGURATION . . ILL 7.3.2 VALIDATION SCENARIOS AND EXPERIMENTS ............................. 113 7.3.3 ANALYSIS OF PUBLIC CELLULAR NETWORKS IN MARITIME AIRSPACE 116 7.3.4 CORRELATION AND PREDICTABILITY OF CHANNEL CONDITIONS . . 119 7.3.5 VALIDATION OF MARITIME CHANNEL MODEL ............................. 120 7.3.6 EVALUATION OF MULTI-CONNECTIVITY EMPOWERED AVAILABIL ITY IMPROVEMENT ............................................................... 122 7.3.7 UAV PAYLOAD PERFORMANCE EVALUATION ............................. 129 7.3.8 MAXIMUM THROUGHPUT EVALUATION ................................... 131 7.4 SUMMARY ......................................................................................... 132 IX CONTENTS 8 CONCLUSION AND OUTLOOK 135 8.1 CONCLUSION ....................................................................................... 135 8.2 OUTLOOK AND FUTURE WORK ................................................................ 137 8.2.1 MULTI-RAT IN BEYOND-5G AND 6G-NETWORKS ..................... 137 8.2.2 SATELLITE COMMUNICATION FOR GLOBAL COMMUNICATION . . 138 A EVALUATION PARAMETERS 141 A.1 CAR-TO-CLOUD HIL EXPERIMENT ....................................................... 141 A.2 CAR-TO-CLOUD SIMULATION ................................................................ 142 A.3 MARITIME CHANNEL MODEL HIL EXPERIMENT ...................................... 143 LIST OF ACRONYMS 145 BIBLIOGRAPHY 149 SCIENTIFIC PUBLICATIONS .............................................................................. 149 ADDITIONAL SOURCES .................................................................................... 170 SCIENTIFIC ACTIVITY REPORT 175 JOURNAL PUBLICATIONS ................................................................................. 175 CONFERENCE PUBLICATIONS ........................................................................... 175 SUPERVISION OF STUDENT THESES AND PROJECT GROUPS ................................ 177
adam_txt	CONTENTS ABSTRACT 111 KURZFASSUNG V 1 VEHICULAR COMMUNICATION: AN INTRODUCTION 1 1.1 INTRODUCTION . 1 1.1.1 SCENARIO I: CROWD-SOURCED VEHICLE BIG DATA . 2 1.1.2 SCENARIO II: ENABLING RELIABLE COMMUNICATION FOR TELE OPERATED RESCUE ROBOTS . 3 1.2 RESEARCH CHALLENGES AND PROBLEM STATEMENT . 6 1.2.1 VEHICULAR BIG DATA CHALLENGES . 6 1.2.2 CHALLENGES OF TELEOPERATING ROBOTS . 7 1.3 METHODOLOGY AND SOLUTION APPROACH . 8 1.4 OUTLINE . 11 2 RELATED WORK AND SELECTED TECHNOLOGICAL BASICS 13 2.1 VEHICULAR COMMUNICATION . 13 2.1.1 MASSIVE CAR-TO-CLOUD DATA TRANSFERS . 13 2.1.2 CLOUD SYSTEMS FOR VEHICLE DATA EXCHANGE . 15 2.1.3 DATA MODELS FOR VEHICLE BIG DATA (VBD) AGGREGATION . . 16 2.2 RELIABLE COMMUNICATION FOR RESCUE ROBOTICS . 17 2.3 REVIEW OF (MULTI-CONNECTIVITY) TRANSPORT PROTOCOLS . 19 2.3.1 TRANSPORT LAYER PROTOCOLS . 19 2.3.2 MULTI-CONNECTIVITY PROTOCOLS . 21 2.3.3 MULTI-CONNECTIVITY FOR PAYLOAD AND VIDEO TRANSPORTATION 25 3 COMMON VEHICLE INFORMATION MODEL (CVIM) FOR RESOURCE EFFICIENT CODING OF VEHICULAR SENSOR DATA 27 3.1 INTRODUCTION . 27 3.2 FROM SENSOR TO CONSUMER: THE VEHICLE BIG DATA (VBD) PRO CESSING CHAIN . 28 3.3 ECOSYSTEM AND SYSTEM DESIGN REQUIREMENTS FOR VBD AGGREGATION 29 3.4 DEFINITION OF THE COMMON VEHICLE INFORMATION MODEL (CVIM) . 33 3.4.1 SIGNAL LAYER . 34 3.4.2 MEASUREMENT CHANNEL LAYER . 34 CONTENTS 3.4.3 DATA PACKETS . 36 3.5 CVIM REFERENCE IMPLEMENTATION AND EXAMPLE SERVICES . 38 3.5.1 EXAMPLE SERVICE 1: VEHICLE BIG DATA-BASED HYPER-LOCAL WEATHER PREDICTION . 38 3.5.2 EXAMPLE SERVICE 2: ROAD QUALITY MONITORING USING VEHICLE BIG DATA . 39 3.5.3 EXAMPLE SERVICE 3: VEHICLE SPEED ESTIMATION USING GEO HISTOGRAMS . 40 3.6 ESTIMATE OF DATA SIZES . 40 3.7 SUMMARY . 44 4 PERFORMANCE IMPROVEMENTS OF DATA UPLOADS 45 4.1 INTRODUCTION . 45 4.2 EXPLOITING CHANNEL-AWARENESS FOR VEHICULAR DATA UPLOADS . 46 4.2.1 ADVANCED CAR-TO-CLOUD TRANSMISSION STRATEGIES . 47 4.2.2 COMMUNICATION PLATFORM FOR EMPIRICAL EVALUATION . 49 4.2.3 DISCUSSION OF EXPERIMENTAL DRIVE-TEST RESULTS . 50 4.3 TRANSPORT LAYER OPTIMIZATIONS . 54 4.3.1 SCALANC FOR RELIABLE CAR-TO-CLOUD DATA TRANSFERS . . 54 4.3.2 SCALANC HARDWARE-IN-THE-LOOP (HIL) EVALUATION METH ODOLOGY . 56 4.3.3 EXPERIMENT SETUP . 56 4.3.4 PARAMETRIZATION . 57 4.3.5 CAR-TO-CLOUD DATA UPLOAD RESULTS . 58 4.4 MULTI-CONNECTIVITY ENABLED DATA DELIVERY . 60 4.4.1 CAT EXTENSION FOR MULTI-CONNECTIVITY . 62 4.4.2 LINK SELECTION . 63 4.5 SUMMARY . 66 5 SCALABILITY ANALYSIS OF CVIM CAR-TO-CLOUD DATA TRANSFERS 67 5.1 INTRODUCTION . 67 5.2 METHODOLOGY . 68 5.2.1 ENVIRONMENT MODEL AND SCENARIO DEFINITION . 69 5.2.2 VEHICLE TRAFFIC SIMULATION . 69 5.2.3 COMMUNICATION MODEL . 71 5.3 SINGLE CONNECTIVITY EVALUATION . 73 5.4 MULTI-CONNECTIVITY RESULTS . 75 5.4.1 MULTI-CONNECTIVITY CAT THROUGHPUT IMPROVEMENT . . . 75 VIII CONTENTS 5.4.2 AGE OF INFORMATION (AOI) TRADE-OFF . 76 5.4.3 CHANNEL-QUALITY AND EFFICIENCY IMPROVEMENTS . 78 5.5 SUMMARY . 79 6 SKATES: INTEROPERABLE MULTI-RAT COMMUNICATION FOR RELI ABLE ROBOT TELEOPERATION 81 6.1 INTRODUCTION . 81 6.2 DETAILED SYSTEM CONCEPT AND IMPLEMENTATION ASPECTS . 84 6.2.1 ENABLING MULTI-CONNECTIVITY AND SEAMLESS HANDOVERS . 85 6.2.2 TRANSPARENT PROTOCOL TUNNELLING . 86 6.2.3 PROVIDING SECURITY AND MUTUAL ENDPOINT DISCOVERY . 88 6.2.4 COMMUNICATION LINK HEALTH MONITORING . 89 6.3 SKATES EXPERIMENTAL EVALUATION . 89 6.3.1 ROBOT SETUP AND EQUIPMENT . 89 6.3.2 SCENARIO DESCRIPTION . 91 6.3.3 EXPERIMENTAL RESULTS . 92 6.4 CONCLUSION . 95 7 HETEROGENEOUS MULTI-CONNECTIVITY FOR MARITIME SEARCH AND RESCUE (SAR) MISSIONS 97 7.1 INTRODUCTION . 97 7.2 HEIGHT DEPENDENT MULTI-CONNECTIVITY MARITIME AIR-TO-GROUND CHANNEL MODEL . 99 7.2.1 ANALYTIC MARITIME CHANNEL MODEL DESCRIPTION . 100 7.2.2 EVALUATION OF ANALYTIC MODEL . 102 7.2.3 HARDWARE-IN-THE-LOOP (HIL) EXPERIMENTAL EVALUATION . 105 7.3 EMPIRIC EVALUATION OF AIR-TO-GROUND COMMUNICATION . 110 7.3.1 SYSTEM SETUP AND AIR-TO-GROUND LINK CONFIGURATION . . ILL 7.3.2 VALIDATION SCENARIOS AND EXPERIMENTS . 113 7.3.3 ANALYSIS OF PUBLIC CELLULAR NETWORKS IN MARITIME AIRSPACE 116 7.3.4 CORRELATION AND PREDICTABILITY OF CHANNEL CONDITIONS . . 119 7.3.5 VALIDATION OF MARITIME CHANNEL MODEL . 120 7.3.6 EVALUATION OF MULTI-CONNECTIVITY EMPOWERED AVAILABIL ITY IMPROVEMENT . 122 7.3.7 UAV PAYLOAD PERFORMANCE EVALUATION . 129 7.3.8 MAXIMUM THROUGHPUT EVALUATION . 131 7.4 SUMMARY . 132 IX CONTENTS 8 CONCLUSION AND OUTLOOK 135 8.1 CONCLUSION . 135 8.2 OUTLOOK AND FUTURE WORK . 137 8.2.1 MULTI-RAT IN BEYOND-5G AND 6G-NETWORKS . 137 8.2.2 SATELLITE COMMUNICATION FOR GLOBAL COMMUNICATION . . 138 A EVALUATION PARAMETERS 141 A.1 CAR-TO-CLOUD HIL EXPERIMENT . 141 A.2 CAR-TO-CLOUD SIMULATION . 142 A.3 MARITIME CHANNEL MODEL HIL EXPERIMENT . 143 LIST OF ACRONYMS 145 BIBLIOGRAPHY 149 SCIENTIFIC PUBLICATIONS . 149 ADDITIONAL SOURCES . 170 SCIENTIFIC ACTIVITY REPORT 175 JOURNAL PUBLICATIONS . 175 CONFERENCE PUBLICATIONS . 175 SUPERVISION OF STUDENT THESES AND PROJECT GROUPS . 177
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series	Dortmunder Beiträge zu Kommunikationsnetzen und -systemen
series2	Dortmunder Beiträge zu Kommunikationsnetzen und -systemen
spelling	Güldenring, Johannes 1988- Verfasser (DE-588)125943124X aut Multi-connectivity strategies for vehicular and robotic communications Johannes Güldenring Düren Shaker Verlag 2022 X, 177 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Dortmunder Beiträge zu Kommunikationsnetzen und -systemen Band 22 Dissertation Technische Universität Dortmund 2021 Flugkörper (DE-588)4154756-1 gnd rswk-swf Car-to-Car-Kommunikation (DE-588)1024622754 gnd rswk-swf Autonomes Fahrzeug (DE-588)7714938-5 gnd rswk-swf Mobiler Roboter (DE-588)4191911-7 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Autonomes Fahrzeug (DE-588)7714938-5 s Mobiler Roboter (DE-588)4191911-7 s Flugkörper (DE-588)4154756-1 s Car-to-Car-Kommunikation (DE-588)1024622754 s DE-604 Shaker Verlag (DE-588)1064118135 pbl Dortmund (DE-588)4012814-3 gnd uvp Dortmunder Beiträge zu Kommunikationsnetzen und -systemen Band 22 (DE-604)BV041418989 22 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033666016&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Güldenring, Johannes 1988- Multi-connectivity strategies for vehicular and robotic communications Dortmunder Beiträge zu Kommunikationsnetzen und -systemen Flugkörper (DE-588)4154756-1 gnd Car-to-Car-Kommunikation (DE-588)1024622754 gnd Autonomes Fahrzeug (DE-588)7714938-5 gnd Mobiler Roboter (DE-588)4191911-7 gnd
subject_GND	(DE-588)4154756-1 (DE-588)1024622754 (DE-588)7714938-5 (DE-588)4191911-7 (DE-588)4113937-9
title	Multi-connectivity strategies for vehicular and robotic communications
title_auth	Multi-connectivity strategies for vehicular and robotic communications
title_exact_search	Multi-connectivity strategies for vehicular and robotic communications
title_exact_search_txtP	Multi-connectivity strategies for vehicular and robotic communications
title_full	Multi-connectivity strategies for vehicular and robotic communications Johannes Güldenring
title_fullStr	Multi-connectivity strategies for vehicular and robotic communications Johannes Güldenring
title_full_unstemmed	Multi-connectivity strategies for vehicular and robotic communications Johannes Güldenring
title_short	Multi-connectivity strategies for vehicular and robotic communications
title_sort	multi connectivity strategies for vehicular and robotic communications
topic	Flugkörper (DE-588)4154756-1 gnd Car-to-Car-Kommunikation (DE-588)1024622754 gnd Autonomes Fahrzeug (DE-588)7714938-5 gnd Mobiler Roboter (DE-588)4191911-7 gnd
topic_facet	Flugkörper Car-to-Car-Kommunikation Autonomes Fahrzeug Mobiler Roboter Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033666016&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV041418989
work_keys_str_mv	AT guldenringjohannes multiconnectivitystrategiesforvehicularandroboticcommunications AT shakerverlag multiconnectivitystrategiesforvehicularandroboticcommunications

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