Verfügbarkeit: Non-orthogonal waveforms and multiple access schemes for cellular wireless networks

Non-orthogonal waveforms and multiple access schemes for cellular wireless networks:

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Bibliographische Detailangaben
1. Verfasser:	Wang, Xiaojie (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Stuttgart 2022
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xxiii, 169 Seiten Illustrationen, Diagramme 21 cm

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Datensatz im Suchindex

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adam_text	CONTENTS LIST OF ACRONYMS XV NOTATIONS XIX LIST OF FIGURES XXI LIST OF TABLES 1 1 INTRODUCTION 3 1.1 ORTHOGONAL TO NON-ORTHOGONAL .......................................................................................... 4 1.2 SMALL-SCALE TO LARGE-SCALE .................................................................................................... 5 1.3 HOMOGENEOUS TO DIVERSE .................................................................................................... 5 1.4 THESIS ORGANIZATION ............................................................................................................. 5 1.5 THESIS CONTRIBUTION ............................................................................................................. 6 2 PHY 9 2.1 WIRELESS CHANNEL MODELS ................................................................................................... 10 2.1.1 TAPPED-DELAY LINE CHANNEL MODEL ............................................................................ 11 2.1.2 STATISTICAL DESCRIPTION OF THE WIRELESS CHANNEL .......................................................... 11 2.1.3 VARIOUS WIRELESS CHANNEL MODELS ............................................................................... 14 2.2 MULTICARRIER WAVEFORMS ...................................................................................................... 16 2.2.1 OFDM ......................................................................................................................... 17 2.2.2 FBMC ......................................................................................................................... 20 2.2.3 UFMC ......................................................................................................................... 22 2.3 CHANNEL ESTIMATION FOR UFMC WAVEFORM ...................................................................... 26 2.3.1 LTE FRAME STRUCTURE .................................................................................................. 26 2.3.2 EFFECT OF MULTIPATH CHANNEL ..................................................................................... 28 2.3.3 CHANNEL ESTIMATION .................................................................................................. 29 2.4 SPECTRAL SHAPING FOR UFMC WAVEFORM ............................................................................ 32 2.4.1 AIC ............................................................................................................................ 33 2.4.2 AIC WITH INSTANTANEOUS POWER CONSTRAINT ........................................................... 37 2.4.3 AIC WITH STATISTICAL POWER CONSTRAINT ................................................................. 37 2.4.4 COMBING AIC AND FIR-FILTERING .............................................................................. 39 XI 2.5 PAPR ANALYSIS ...................................................................................................................... 41 2.5.1 PAPR ANALYSIS ......................................................................................................... 42 2.5.2 CLIPPING AND DFT PRECODING .................................................................................. 45 2.5.3 PERFORMANCE COMPARISON ......................................................................................... 46 2.6 WINDOW OPTIMIZATION ........................................................................................................... 49 2.6.1 SINR ANALYSIS WITH RECEIVE WINDOW ....................................................................... 50 2.6.2 OPTIMUM WINDOW LENGTH ......................................................................................... 52 2.7 SINR ANALYSIS FOR DOUBLY DISPERSIVE CHANNELS ................................................................... 55 2.7.1 DOUBLY DISPERSIVE CHANNEL ...................................................................................... 56 2.7.2 SINR ANALYSIS ............................................................................................................. 57 2.7.3 DOWNLINK PERFORMANCE ............................................................................................ 60 2.7.4 UPLINK PERFORMANCE ................................................................................................... 60 2.7.5 DISCUSSION ................................................................................................................... 62 3 MIMO 69 3.1 INTRODUCTION ............................................................................................................................ 69 3.2 MIMO DETECTION METHODS ................................................................................................... 71 3.2.1 LINEAR RECEIVERS ......................................................................................................... 71 3.2.2 SUCCESSIVE INTERFERENCE CANCELLATION ......................................................................... 71 3.2.3 MAP/ML/APP RECEIVER ............................................................................................ 72 3.2.4 SUBSPACE DETECTION ................................................................................................... 72 3.3 SUBSPACE DETECTION WITH PARALLEL INTERFERENCE CANCELLATION .............................................. 73 3.4 COMPLEXITY ANALYSIS ............................................................................................................ 75 3.5 CONVERGENCE ANALYSIS ............................................................................................................ 77 3.6 PERFORMANCE COMPARISON ...................................................................................................... 79 4 NOMA 85 4.1 INTRODUCTION ............................................................................................................................ 86 4.1.1 POINT-TO-POINT CHANNEL CAPACITY ............................................................................ 86 4.1.2 MAC CAPACITY ........................................................................................................... 87 4.2 IDMA SYSTEM MODEL ............................................................................................................ 91 4.3 ITERATIVE IDMA RECEIVER ..................................................................................................... 95 4.3.1 ESE FUNCTIONS ............................................................................................................ 95 4.3.2 DEC FUNCTIONS ............................................................................................................ 96 4.3.3 MATCHING CONDITION .................................................................................................. 97 4.4 ACHIEVABLE RATES ...................................................................................................................... 97 4.4.1 GAUSSIAN ALPHABETS ................................................................................................... 98 4.4.2 FINITE ALPHABETS ............................................................................................................ 100 4.4.3 PATH VS RATE TUPLES ..................................................................................................... 101 4.4.4 ACHIEVABLE RATE REGION .................................................................................................. 103 XII 4.4.5 PATH CONSTRUCTION ....................................................................................................... 104 4.4.6 GAUSSIAN APPROXIMATION .......................................................................................... 104 4.5 MU-MIMO CHANNEL ............................................................................................................ 106 4.6 CODE DESIGN FOR IDMA ......................................................................................................... 107 4.6.1 TRANSFER FUNCTIONS ....................................................................................................... 107 4.6.2 LDPC CODE OPTIMIZATION .......................................................................................... 110 4.6.3 PERFORMANCE ................................................................................................................. 110 4.6.4 HIGH RATE .................................................................................................................... 112 5 FEC 121 5.1 INTRODUCTION ............................................................................................................................. 121 5.2 MULTI-USER EXIT ANALYSIS ...................................................................................................... 122 5.2.1 SOIC-MUD NODES ........................................................................................................ 123 5.2.2 REPETITION NODES ........................................................................................................ 124 5.2.3 VND AND CND NODES ................................................................................................. 126 5.3 UNIVERSAL CODE DESIGN ......................................................................................................... 126 5.3.1 OPERATION REGIME ........................................................................................................ 126 5.3.2 LDPC CODE ONLY ........................................................................................................ 129 5.3.3 REPETITION CODE AND LDPC ........................................................................................ 131 5.4 UNIVERSAL USER-LOAD SUPPORT ................................................................................................ 133 5.5 UNIVERSAL USER-POWER SUPPORT ............................................................................................ 137 6 CONCLUSION 143 A APPENDIX 145 A.1 DERIVATION OF ISI AND ICI IN UFMC ...................................................................................... 145 A. 2 ANALYSIS OF THE ICI WITH RECEIVE WINDOW IN UFMC ............................................................ 147 A. 3 SIGNAL ANALYSIS IN DOUBLY DISPERSIVE CHANNELS ................................................................... 148 A.3.1 ISI IN UFMC ............................................................................................................. 148 A. 3.2 ISI POWER ................................................................................................................... 148 A. 3.3 DOPPLER AND FREQUENCY CORRELATION MATRICES .............................................................. 150 A. 3.4 ICI AND SIGNAL ............................................................................................................. 150 A. 4 PROOF OF (4.44) ..................................................................................................................... 151 A. 5 PROOF OF THEOREM 2 ............................................................................................................... 152 A. 6 DERIVATION OF STABILITY CONDITION OF (5.25) ............................................................................. 153 A. 7 PROOF OF THEOREM 4 ............................................................................................................... 153 A. 8 PROOF OF THEOREM 5 ............................................................................................................... 154 BIBLIOGRAPHY 157 XIII
adam_txt	CONTENTS LIST OF ACRONYMS XV NOTATIONS XIX LIST OF FIGURES XXI LIST OF TABLES 1 1 INTRODUCTION 3 1.1 ORTHOGONAL TO NON-ORTHOGONAL . 4 1.2 SMALL-SCALE TO LARGE-SCALE . 5 1.3 HOMOGENEOUS TO DIVERSE . 5 1.4 THESIS ORGANIZATION . 5 1.5 THESIS CONTRIBUTION . 6 2 PHY 9 2.1 WIRELESS CHANNEL MODELS . 10 2.1.1 TAPPED-DELAY LINE CHANNEL MODEL . 11 2.1.2 STATISTICAL DESCRIPTION OF THE WIRELESS CHANNEL . 11 2.1.3 VARIOUS WIRELESS CHANNEL MODELS . 14 2.2 MULTICARRIER WAVEFORMS . 16 2.2.1 OFDM . 17 2.2.2 FBMC . 20 2.2.3 UFMC . 22 2.3 CHANNEL ESTIMATION FOR UFMC WAVEFORM . 26 2.3.1 LTE FRAME STRUCTURE . 26 2.3.2 EFFECT OF MULTIPATH CHANNEL . 28 2.3.3 CHANNEL ESTIMATION . 29 2.4 SPECTRAL SHAPING FOR UFMC WAVEFORM . 32 2.4.1 AIC . 33 2.4.2 AIC WITH INSTANTANEOUS POWER CONSTRAINT . 37 2.4.3 AIC WITH STATISTICAL POWER CONSTRAINT . 37 2.4.4 COMBING AIC AND FIR-FILTERING . 39 XI 2.5 PAPR ANALYSIS . 41 2.5.1 PAPR ANALYSIS . 42 2.5.2 CLIPPING AND DFT PRECODING . 45 2.5.3 PERFORMANCE COMPARISON . 46 2.6 WINDOW OPTIMIZATION . 49 2.6.1 SINR ANALYSIS WITH RECEIVE WINDOW . 50 2.6.2 OPTIMUM WINDOW LENGTH . 52 2.7 SINR ANALYSIS FOR DOUBLY DISPERSIVE CHANNELS . 55 2.7.1 DOUBLY DISPERSIVE CHANNEL . 56 2.7.2 SINR ANALYSIS . 57 2.7.3 DOWNLINK PERFORMANCE . 60 2.7.4 UPLINK PERFORMANCE . 60 2.7.5 DISCUSSION . 62 3 MIMO 69 3.1 INTRODUCTION . 69 3.2 MIMO DETECTION METHODS . 71 3.2.1 LINEAR RECEIVERS . 71 3.2.2 SUCCESSIVE INTERFERENCE CANCELLATION . 71 3.2.3 MAP/ML/APP RECEIVER . 72 3.2.4 SUBSPACE DETECTION . 72 3.3 SUBSPACE DETECTION WITH PARALLEL INTERFERENCE CANCELLATION . 73 3.4 COMPLEXITY ANALYSIS . 75 3.5 CONVERGENCE ANALYSIS . 77 3.6 PERFORMANCE COMPARISON . 79 4 NOMA 85 4.1 INTRODUCTION . 86 4.1.1 POINT-TO-POINT CHANNEL CAPACITY . 86 4.1.2 MAC CAPACITY . 87 4.2 IDMA SYSTEM MODEL . 91 4.3 ITERATIVE IDMA RECEIVER . 95 4.3.1 ESE FUNCTIONS . 95 4.3.2 DEC FUNCTIONS . 96 4.3.3 MATCHING CONDITION . 97 4.4 ACHIEVABLE RATES . 97 4.4.1 GAUSSIAN ALPHABETS . 98 4.4.2 FINITE ALPHABETS . 100 4.4.3 PATH VS RATE TUPLES . 101 4.4.4 ACHIEVABLE RATE REGION . 103 XII 4.4.5 PATH CONSTRUCTION . 104 4.4.6 GAUSSIAN APPROXIMATION . 104 4.5 MU-MIMO CHANNEL . 106 4.6 CODE DESIGN FOR IDMA . 107 4.6.1 TRANSFER FUNCTIONS . 107 4.6.2 LDPC CODE OPTIMIZATION . 110 4.6.3 PERFORMANCE . 110 4.6.4 HIGH RATE . 112 5 FEC 121 5.1 INTRODUCTION . 121 5.2 MULTI-USER EXIT ANALYSIS . 122 5.2.1 SOIC-MUD NODES . 123 5.2.2 REPETITION NODES . 124 5.2.3 VND AND CND NODES . 126 5.3 UNIVERSAL CODE DESIGN . 126 5.3.1 OPERATION REGIME . 126 5.3.2 LDPC CODE ONLY . 129 5.3.3 REPETITION CODE AND LDPC . 131 5.4 UNIVERSAL USER-LOAD SUPPORT . 133 5.5 UNIVERSAL USER-POWER SUPPORT . 137 6 CONCLUSION 143 A APPENDIX 145 A.1 DERIVATION OF ISI AND ICI IN UFMC . 145 A. 2 ANALYSIS OF THE ICI WITH RECEIVE WINDOW IN UFMC . 147 A. 3 SIGNAL ANALYSIS IN DOUBLY DISPERSIVE CHANNELS . 148 A.3.1 ISI IN UFMC . 148 A. 3.2 ISI POWER . 148 A. 3.3 DOPPLER AND FREQUENCY CORRELATION MATRICES . 150 A. 3.4 ICI AND SIGNAL . 150 A. 4 PROOF OF (4.44) . 151 A. 5 PROOF OF THEOREM 2 . 152 A. 6 DERIVATION OF STABILITY CONDITION OF (5.25) . 153 A. 7 PROOF OF THEOREM 4 . 153 A. 8 PROOF OF THEOREM 5 . 154 BIBLIOGRAPHY 157 XIII
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spellingShingle	Wang, Xiaojie Non-orthogonal waveforms and multiple access schemes for cellular wireless networks
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title	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks
title_auth	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks
title_exact_search	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks
title_exact_search_txtP	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks
title_full	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks vorgelegt von Xiaojie Wang ; Hauptberichter: Prof. Dr.-Ing. Stephan ten Brink
title_fullStr	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks vorgelegt von Xiaojie Wang ; Hauptberichter: Prof. Dr.-Ing. Stephan ten Brink
title_full_unstemmed	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks vorgelegt von Xiaojie Wang ; Hauptberichter: Prof. Dr.-Ing. Stephan ten Brink
title_short	Non-orthogonal waveforms and multiple access schemes for cellular wireless networks
title_sort	non orthogonal waveforms and multiple access schemes for cellular wireless networks
topic_facet	Hochschulschrift
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