Verfügbarkeit: A mechanism to elastically utilize compute resources in mobile communication basestations

A mechanism to elastically utilize compute resources in mobile communication basestations:

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Bibliographische Detailangaben
1. Verfasser:	Werthmann, Thomas (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Stuttgart Universität Stuttgart, Institut für Kommunikationsnetze und Rechnersysteme [2020]
Schriftenreihe:	Communication networks and computer engineering no. 121
Schlagworte:	MIMO Basisstation > Mobilfunk Rechenkapazität Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xxviii, 207 Seiten Diagramme 21 cm
ISBN:	9783938965320 3938965320

Internformat

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Datensatz im Suchindex

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adam_text	CONTENTS ABSTRACT I KURZFASSUNG V CONTENTS IX LIST OF FIGURES XII LIST OF TABLES XV ABBREVIATIONS XVII MATHEMATICAL NOTATION AND SYMBOLS XXIII 1 INTRODUCTION 1 1.1 CELLULAR WIRELESS COMMUNICATION ....................................................................... 1 1.2 COMPUTE REQUIREMENTS OF WIRELESS COMMUNICATION SYSTEMS ............................ 2 1.3 ELASTIC UTILIZATION OF COMPUTE RESOURCES ........................................................... 3 1.4 RESEARCH QUESTIONS AND CONTRIBUTIONS ................................................................. 3 1.5 OUTLINE OF THE THESIS ............................................................................................. 4 2 LTE NETWORK ARCHITECTURE AND MECHANISMS 7 2.1 INTRODUCTION TO LTE ................................................................................................. 7 2.1.1 CELLULAR NETWORKS .................................................................................... 8 2.1.2 LTE RELEASES AND FEATURES ....................................................................... 9 2.2 LTE ARCHITECTURE ................................................................................................... 10 2.2.1 ARCHITECTURE OF THE EVOLVED PACKET SYSTEM ........................................... 11 2.2.2 PROTOCOL STACK OF THE RADIO INTERFACE ..................................................... 12 2.2.3 CLASSES OF BASE STATIONS AND CELL LAYOUTS .............................................. 13 2.2.4 CLOUD RADIO ACCESS NETWORK ................................................................. 13 2.3 EFFICIENT OPERATION OF THE RADIO CHANNEL .............................................................. 17 2.3.1 CHARACTERISTICS OF THE WIRELESS CHANNEL .................................................. 18 2.3.2 MODULATION AND DEMODULATION ................................................................. 19 2.3.3 ERROR CORRECTION ....................................................................................... 22 2.3.4 MULTI-ANTENNA TRANSMISSION AND RECEPTION ........................................... 24 2.3.5 OPPORTUNISTIC RESOURCE ALLOCATION ........................................................... 33 2.3.6 MEASUREMENT AND REPORTING OF CHANNEL STATE INFORMATION ................... 33 2.3.7 SUMMARY AND OVERALL PICTURE ................................................................. 37 IX CONTENTS 2.4 FRAMEWORK FOR THE MANAGEMENT OF RADIO RESOURCES ........................................... 39 2.4.1 STRUCTURING OF CHANNEL RESOURCES ........................................................... 39 2.4.2 MAPPING OF PHYSICAL CHANNELS AND SIGNALS TO RESOURCES ...................... 42 2.4.3 SIGNALING OF ALLOCATED RESOURCES ........................................................... 44 2.4.4 SUMMARY AND DISCUSSION OF IMPACTS ON RESOURCE ALLOCATION ................ 47 3 MANAGEMENT OF RADIO RESOURCES 49 3.1 INTEGRATION OF RESOURCE ALLOCATION INTO THE LTE SYSTEM ..................................... 49 3.2 OBJECTIVES ............................................................................................................... 50 3.2.1 OBJECTIVES FROM A SINGLE USER PERSPECTIVE ............................................... 51 3.2.2 OBJECTIVES FROM NETWORK PERSPECTIVE ..................................................... 53 3.2.3 DISCUSSION ................................................................................................ 56 3.3 RESOURCE ALLOCATION AS OPTIMIZATION PROBLEM ..................................................... 56 3.3.1 FIXED NETWORKS .......................................................................................... 56 3.3.2 WIRELESS NETWORKS .................................................................................... 57 3.4 HEURISTICS USED FOR RESOURCE ALLOCATION .............................................................. 59 3.4.1 FIXED NETWORKS .......................................................................................... 59 3.4.2 MAXIMIZING CELL METRICS IN WIRELESS NETWORKS ..................................... 60 3.4.3 MAXIMIZING INDIVIDUAL QOS METRICS IN WIRELESS NETWORKS ................... 61 3.5 DISCUSSION ............................................................................................................... 63 4 EFFICIENT OPERATION IN MULTI-CELL ENVIRONMENTS 65 4.1 COPING WITH INTERFERENCE AT THE RECEIVER .............................................................. 66 4.2 REDUCING THE IMPACT OF INTERFERENCE BY COORDINATING TRANSMITTERS ................... 67 4.2.1 SPATIAL REUSE OF RESOURCES ....................................................................... 67 4.2.2 COORDINATION OF RESOURCE USAGE .............................................................. 68 4.2.3 INTERFERENCE COORDINATION AS OPTIMIZATION PROBLEM ............................... 69 4.2.4 STANDARDIZATION IN LTE .............................................................................. 73 4.3 COORDINATED MULTIPOINT TRANSMISSION AND RECEPTION ........................................ 76 4.3.1 COMP CELL CONFIGURATIONS ....................................................................... 76 4.3.2 COMP APPROACHES FOR DATA TRANSMISSION AND RECEPTION ...................... 76 4.3.3 STANDARDIZATION IN LTE ............................................................................. 77 4.4 SUMMARY AND DISCUSSION ....................................................................................... 78 5 ELASTIC UTILIZATION OF COMPUTE RESOURCES 79 5.1 PROBLEM STATEMENT ................................................................................................ 79 5.1.1 MOTIVATION ................................................................................................ 79 5.1.2 RESEARCH QUESTION AND CONTRIBUTIONS ..................................................... 81 5.2 CLASSIFICATION OF RELATED WORK ............................................................................. 83 5.2.1 EFFICIENT SIGNAL PROCESSING IN COMMUNICATION SYSTEMS ......................... 83 5.2.2 REAL-TIME SCHEDULING ............................................................................. 86 5.2.3 DIMENSIONING AND MANAGEMENT OF COMPUTE RESOURCES IN C-RANS . . 89 5.2.4 SUMMARY ................................................................................................... 90 5.3 SYSTEM MODEL ......................................................................................................... 91 5.3.1 GEOMETRY MODEL ....................................................................................... 91 5.3.2 CELL LAYOUT AND BASE STATION MODEL ........................................................ 92 5.3.3 USER MODEL ................................................................................................ 94 5.3.4 CHANNEL MODEL .......................................................................................... 94 5.3.5 MODEL FOR INTERFERENCE AND PHYSICAL LAYER PROCESSING ............................ 95 CONTENTS XI 5.3.6 DATA TRAFFIC MODELS .................................................................................... 98 5.3.7 PROCESSING EFFORT MODEL .............................................................................. 101 5.3.8 RESOURCE ALLOCATION MODEL ........................................................................ 103 5.4 OPTIMIZATION PROBLEM ................................................................................................ 104 5.4.1 APPROACH AND CLASSIFICATION ........................................................................ 104 5.4.2 MODELING OF LINK ADAPTATION PARAMETERS .................................................. 105 5.4.3 MATHEMATICAL SPECIFICATION OF THE BASIC PROBLEM ...................................... 106 5.4.4 FORMULATION OF FAIRNESS REQUIREMENTS ........................................................ 112 5.4.5 RESTRICTION OF VARIABLES ADAPTED TO AVAILABLE COMPUTE RESOURCES ... 115 5.4.6 SUMMARY ....................................................................................................... 119 5.5 INFERENCE FROM SOLUTIONS OF THE OPTIMIZATION PROBLEM ............................................ 119 5.5.1 EVALUATION METHODOLOGY .............................................................................. 120 5.5.2 SYSTEM BEHAVIOR WITH UNRESTRICTED PROCESSING EFFORT ................................. 121 5.5.3 UTILITY UNDER RESTRICTED COMPUTE RESOURCES ............................................... 124 5.5.4 SEPARATION OF CONTROL VARIABLES ................................................................. 128 5.5.5 BENEFIT OF INDIVIDUAL ADAPTATION .................................................................. 130 5.5.6 SUMMARY AND DERIVATION OF DESIGN GUIDELINES ......................................... 131 5.6 PROPOSED SYSTEM ....................................................................................................... 132 5.6.1 REQUIREMENTS AND CONSTRAINTS ..................................................................... 132 5.6.2 INSPIRING OPTIMIZATION PROBLEM .................................................................. 133 5.6.3 MECHANISM TO ACHIEVE ELASTIC UTILIZATION OF COMPUTE RESOURCES . ... 136 5.6.4 INTEGRATION INTO THE RAN .............................................................................. 142 5.6.5 DISCUSSION AND EVALUATION ........................................................................... 144 6 PERFORMANCE EVALUATION 149 6.1 EVALUATION COMPARED TO OPTIMAL ALLOCATION ........................................................... 149 6.1.1 EVALUATION METHODOLOGY .............................................................................. 150 6.1.2 REFERENCE CONFIGURATIONS .............................................................................. 151 6.1.3 STUDIES .......................................................................................................... 157 6.1.4 SUMMARY AND CONCLUSION ........................................................................... 161 6.2 EVALUATION WITH DYNAMIC LOAD ................................................................................. 161 6.2.1 EFFECTS CAUSING VARIATIONS OF THE COMPUTE LOAD ...................................... 162 6.2.2 EVALUATION METHODOLOGY .............................................................................. 163 6.2.3 CONFIGURATION AND CALIBRATION OF THE SYSTEM ............................................... 169 6.2.4 STUDIES ......................................................................................................... 171 6.2.5 SUMMARY AND CONCLUSION ........................................................................... 175 7 SUMMARY AND CONCLUSION 177 7.1 SUMMARY ................................................................................................................... 177 7.2 CONCLUSIONS ................................................................................................................ 180 7.3 OUTLOOK ...................................................................................................................... 181 A DEFINITION OF THE WRAP-AROUND GEOMETRY 183 B MEASUREMENT OF PROCESSING EFFORT 185 C TIMING OF THE PROPOSED SYSTEM 187 BIBLIOGRAPHY 191
adam_txt	CONTENTS ABSTRACT I KURZFASSUNG V CONTENTS IX LIST OF FIGURES XII LIST OF TABLES XV ABBREVIATIONS XVII MATHEMATICAL NOTATION AND SYMBOLS XXIII 1 INTRODUCTION 1 1.1 CELLULAR WIRELESS COMMUNICATION . 1 1.2 COMPUTE REQUIREMENTS OF WIRELESS COMMUNICATION SYSTEMS . 2 1.3 ELASTIC UTILIZATION OF COMPUTE RESOURCES . 3 1.4 RESEARCH QUESTIONS AND CONTRIBUTIONS . 3 1.5 OUTLINE OF THE THESIS . 4 2 LTE NETWORK ARCHITECTURE AND MECHANISMS 7 2.1 INTRODUCTION TO LTE . 7 2.1.1 CELLULAR NETWORKS . 8 2.1.2 LTE RELEASES AND FEATURES . 9 2.2 LTE ARCHITECTURE . 10 2.2.1 ARCHITECTURE OF THE EVOLVED PACKET SYSTEM . 11 2.2.2 PROTOCOL STACK OF THE RADIO INTERFACE . 12 2.2.3 CLASSES OF BASE STATIONS AND CELL LAYOUTS . 13 2.2.4 CLOUD RADIO ACCESS NETWORK . 13 2.3 EFFICIENT OPERATION OF THE RADIO CHANNEL . 17 2.3.1 CHARACTERISTICS OF THE WIRELESS CHANNEL . 18 2.3.2 MODULATION AND DEMODULATION . 19 2.3.3 ERROR CORRECTION . 22 2.3.4 MULTI-ANTENNA TRANSMISSION AND RECEPTION . 24 2.3.5 OPPORTUNISTIC RESOURCE ALLOCATION . 33 2.3.6 MEASUREMENT AND REPORTING OF CHANNEL STATE INFORMATION . 33 2.3.7 SUMMARY AND OVERALL PICTURE . 37 IX CONTENTS 2.4 FRAMEWORK FOR THE MANAGEMENT OF RADIO RESOURCES . 39 2.4.1 STRUCTURING OF CHANNEL RESOURCES . 39 2.4.2 MAPPING OF PHYSICAL CHANNELS AND SIGNALS TO RESOURCES . 42 2.4.3 SIGNALING OF ALLOCATED RESOURCES . 44 2.4.4 SUMMARY AND DISCUSSION OF IMPACTS ON RESOURCE ALLOCATION . 47 3 MANAGEMENT OF RADIO RESOURCES 49 3.1 INTEGRATION OF RESOURCE ALLOCATION INTO THE LTE SYSTEM . 49 3.2 OBJECTIVES . 50 3.2.1 OBJECTIVES FROM A SINGLE USER PERSPECTIVE . 51 3.2.2 OBJECTIVES FROM NETWORK PERSPECTIVE . 53 3.2.3 DISCUSSION . 56 3.3 RESOURCE ALLOCATION AS OPTIMIZATION PROBLEM . 56 3.3.1 FIXED NETWORKS . 56 3.3.2 WIRELESS NETWORKS . 57 3.4 HEURISTICS USED FOR RESOURCE ALLOCATION . 59 3.4.1 FIXED NETWORKS . 59 3.4.2 MAXIMIZING CELL METRICS IN WIRELESS NETWORKS . 60 3.4.3 MAXIMIZING INDIVIDUAL QOS METRICS IN WIRELESS NETWORKS . 61 3.5 DISCUSSION . 63 4 EFFICIENT OPERATION IN MULTI-CELL ENVIRONMENTS 65 4.1 COPING WITH INTERFERENCE AT THE RECEIVER . 66 4.2 REDUCING THE IMPACT OF INTERFERENCE BY COORDINATING TRANSMITTERS . 67 4.2.1 SPATIAL REUSE OF RESOURCES . 67 4.2.2 COORDINATION OF RESOURCE USAGE . 68 4.2.3 INTERFERENCE COORDINATION AS OPTIMIZATION PROBLEM . 69 4.2.4 STANDARDIZATION IN LTE . 73 4.3 COORDINATED MULTIPOINT TRANSMISSION AND RECEPTION . 76 4.3.1 COMP CELL CONFIGURATIONS . 76 4.3.2 COMP APPROACHES FOR DATA TRANSMISSION AND RECEPTION . 76 4.3.3 STANDARDIZATION IN LTE . 77 4.4 SUMMARY AND DISCUSSION . 78 5 ELASTIC UTILIZATION OF COMPUTE RESOURCES 79 5.1 PROBLEM STATEMENT . 79 5.1.1 MOTIVATION . 79 5.1.2 RESEARCH QUESTION AND CONTRIBUTIONS . 81 5.2 CLASSIFICATION OF RELATED WORK . 83 5.2.1 EFFICIENT SIGNAL PROCESSING IN COMMUNICATION SYSTEMS . 83 5.2.2 REAL-TIME SCHEDULING . 86 5.2.3 DIMENSIONING AND MANAGEMENT OF COMPUTE RESOURCES IN C-RANS . . 89 5.2.4 SUMMARY . 90 5.3 SYSTEM MODEL . 91 5.3.1 GEOMETRY MODEL . 91 5.3.2 CELL LAYOUT AND BASE STATION MODEL . 92 5.3.3 USER MODEL . 94 5.3.4 CHANNEL MODEL . 94 5.3.5 MODEL FOR INTERFERENCE AND PHYSICAL LAYER PROCESSING . 95 CONTENTS XI 5.3.6 DATA TRAFFIC MODELS . 98 5.3.7 PROCESSING EFFORT MODEL . 101 5.3.8 RESOURCE ALLOCATION MODEL . 103 5.4 OPTIMIZATION PROBLEM . 104 5.4.1 APPROACH AND CLASSIFICATION . 104 5.4.2 MODELING OF LINK ADAPTATION PARAMETERS . 105 5.4.3 MATHEMATICAL SPECIFICATION OF THE BASIC PROBLEM . 106 5.4.4 FORMULATION OF FAIRNESS REQUIREMENTS . 112 5.4.5 RESTRICTION OF VARIABLES ADAPTED TO AVAILABLE COMPUTE RESOURCES . 115 5.4.6 SUMMARY . 119 5.5 INFERENCE FROM SOLUTIONS OF THE OPTIMIZATION PROBLEM . 119 5.5.1 EVALUATION METHODOLOGY . 120 5.5.2 SYSTEM BEHAVIOR WITH UNRESTRICTED PROCESSING EFFORT . 121 5.5.3 UTILITY UNDER RESTRICTED COMPUTE RESOURCES . 124 5.5.4 SEPARATION OF CONTROL VARIABLES . 128 5.5.5 BENEFIT OF INDIVIDUAL ADAPTATION . 130 5.5.6 SUMMARY AND DERIVATION OF DESIGN GUIDELINES . 131 5.6 PROPOSED SYSTEM . 132 5.6.1 REQUIREMENTS AND CONSTRAINTS . 132 5.6.2 INSPIRING OPTIMIZATION PROBLEM . 133 5.6.3 MECHANISM TO ACHIEVE ELASTIC UTILIZATION OF COMPUTE RESOURCES . . 136 5.6.4 INTEGRATION INTO THE RAN . 142 5.6.5 DISCUSSION AND EVALUATION . 144 6 PERFORMANCE EVALUATION 149 6.1 EVALUATION COMPARED TO OPTIMAL ALLOCATION . 149 6.1.1 EVALUATION METHODOLOGY . 150 6.1.2 REFERENCE CONFIGURATIONS . 151 6.1.3 STUDIES . 157 6.1.4 SUMMARY AND CONCLUSION . 161 6.2 EVALUATION WITH DYNAMIC LOAD . 161 6.2.1 EFFECTS CAUSING VARIATIONS OF THE COMPUTE LOAD . 162 6.2.2 EVALUATION METHODOLOGY . 163 6.2.3 CONFIGURATION AND CALIBRATION OF THE SYSTEM . 169 6.2.4 STUDIES . 171 6.2.5 SUMMARY AND CONCLUSION . 175 7 SUMMARY AND CONCLUSION 177 7.1 SUMMARY . 177 7.2 CONCLUSIONS . 180 7.3 OUTLOOK . 181 A DEFINITION OF THE WRAP-AROUND GEOMETRY 183 B MEASUREMENT OF PROCESSING EFFORT 185 C TIMING OF THE PROPOSED SYSTEM 187 BIBLIOGRAPHY 191
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publisher	Universität Stuttgart, Institut für Kommunikationsnetze und Rechnersysteme
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series	Communication networks and computer engineering
series2	Communication networks and computer engineering
spelling	Werthmann, Thomas Verfasser (DE-588)1239338007 aut A mechanism to elastically utilize compute resources in mobile communication basestations Thomas Werthmann Stuttgart Universität Stuttgart, Institut für Kommunikationsnetze und Rechnersysteme [2020] © 2020 xxviii, 207 Seiten Diagramme 21 cm txt rdacontent n rdamedia nc rdacarrier Communication networks and computer engineering no. 121 Dissertation Universität Stuttgart 2020 Zusammenfassung englisch und deutsch MIMO (DE-588)7540075-3 gnd rswk-swf Basisstation Mobilfunk (DE-588)4538215-3 gnd rswk-swf Rechenkapazität (DE-588)4177165-5 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Basisstation Mobilfunk (DE-588)4538215-3 s MIMO (DE-588)7540075-3 s Rechenkapazität (DE-588)4177165-5 s DE-604 Communication networks and computer engineering no. 121 (DE-604)BV021539246 no. 121 B:DE-101 application/pdf https://d-nb.info/1240726422/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032969221&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p dnb 20210923 DE-101 https://d-nb.info/provenance/plan#dnb
spellingShingle	Werthmann, Thomas A mechanism to elastically utilize compute resources in mobile communication basestations Communication networks and computer engineering MIMO (DE-588)7540075-3 gnd Basisstation Mobilfunk (DE-588)4538215-3 gnd Rechenkapazität (DE-588)4177165-5 gnd
subject_GND	(DE-588)7540075-3 (DE-588)4538215-3 (DE-588)4177165-5 (DE-588)4113937-9
title	A mechanism to elastically utilize compute resources in mobile communication basestations
title_auth	A mechanism to elastically utilize compute resources in mobile communication basestations
title_exact_search	A mechanism to elastically utilize compute resources in mobile communication basestations
title_exact_search_txtP	A mechanism to elastically utilize compute resources in mobile communication basestations
title_full	A mechanism to elastically utilize compute resources in mobile communication basestations Thomas Werthmann
title_fullStr	A mechanism to elastically utilize compute resources in mobile communication basestations Thomas Werthmann
title_full_unstemmed	A mechanism to elastically utilize compute resources in mobile communication basestations Thomas Werthmann
title_short	A mechanism to elastically utilize compute resources in mobile communication basestations
title_sort	a mechanism to elastically utilize compute resources in mobile communication basestations
topic	MIMO (DE-588)7540075-3 gnd Basisstation Mobilfunk (DE-588)4538215-3 gnd Rechenkapazität (DE-588)4177165-5 gnd
topic_facet	MIMO Basisstation Mobilfunk Rechenkapazität Hochschulschrift
url	https://d-nb.info/1240726422/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032969221&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV021539246
work_keys_str_mv	AT werthmannthomas amechanismtoelasticallyutilizecomputeresourcesinmobilecommunicationbasestations

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