Verfügbarkeit: Rate-splitting methods for interference management in cellular wireless systems

Rate-splitting methods for interference management in cellular wireless systems:

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Bibliographische Detailangaben
1. Verfasser:	Zhou, Guangxia (VerfasserIn)
Format:	Buch
Sprache:	German
Veröffentlicht:	Berlin Logos Verlag [2018]
Schlagworte:	Kanalkapazität Zellulares Mobilfunksystem Interferenzstörung Störunterdrückung Interference Management Rate Splitting Wireless Communications Cellular Networks Signal Processing Technische Universität Hamburg-Harburg Hochschulschrift
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	238 Seiten 21 cm x 14.5 cm
ISBN:	9783832547844 3832547843

Internformat

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Datensatz im Suchindex

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adam_text	C ONTENTS S UM M ARY I A CKNOW LEDGEM ENTS II LIST O F F IGURES VII LIST O F TABLES X! A B BREVIATIONS XIII N OTA TIO N S XVII 1 IN TROD UCTION 1 1.1 MOTIVATION AND RESEARCH F O C U S.................................................................... 1 1.2 OUTLINE ........................................................................................................... 3 2 FUNDAM ENTAL O F INTERFERENCE C HANNELS 7 2.1 INTERFERENCE CHANNEL . ...................................................................................... 7 2.1.1 SYSTEM MODEL...................................................................................... 8 2.1.2 TWO-USER INTERFERENCE CHANNEL CAPACITY.......................................... 9 2.2 KNOWN RESULTS OF INTERFERENCE CHANNEL C A P A C ITY .......................................... 11 2.2.1 INTERFERENCE-FREE C H A N N E L..................................................................... 11 2.2.2 STRANG INTERFERENCE C HANNEL.................................................................. 12 2.2.2.1 VERY STRONG INTERFERENCE CHANNEL .........................................14 2.2.2.2 MODERATELY STRONG INTERFERENCE CHANNEL ................................. 16 2.2.3 MIXED INTERFERENCE C H AN N EL .................................................................. 17 2.2.4 NOISY INTERFERENCE C H A N N E L.................................................................. 19 2.3 AEHICVABLE RATE REGION OF AN INTERFERENCE C H AN N EL ....................................... 23 2.3.1 INNER B O U N D S..........................................................................................24 2.3.1.1 TREATING INTERFERENCE AS NOISE ............................................. 24 2.3.1.2 ORT LIOGO IIAL I Z A T I O N ................................................................... 25 2.3.1.3 JOINT DECODING......................................................................... 26 2.3.1.4 HAN-KOBAYASLII S CH EIN E .......................................................... 26 2.3.2 OUT ER BOUNDS..........................................................................................29 2.3.2.1 NO INTERFERENCE (LUTER B OUIID ................................................ 30 2.3.2.2 GENIE-AIDED OUTER B O U N D ....................................................... 30 2.4 SIMPLE HAN-KOBAYASHI S C H E IN E ........................................................................31 2.4.1 O VERVIEW ................................................................................................31 2.4.2 CHARACTERIZATION OF INTERFERENCE MITIGATION TECHNIQUES ..................... 38 2.4.3 AEHIOVABLC RATE REGIONS........................................................................40 2.4.3.1 WEAK INTERFERENCE C H A N N E L.................................................... 41 2.4.3.2 MIXED INTERFERENCE C HANNEL ................................................... 46 2.4.3.3 CONDILSIONS .............................................................................. 47 2.5 CONELILSIONS.......................................................................................................... 47 3 H AN-K OBAYASHI SCHEINE FOR CELLULAR W IR EIESS N ETW ORKS 49 3.1 DOWNLINK MULTI-CELL OFDMA NETWORKS ......................................................... 49 3.1.1 INTRODUCTION ........................ 50 3.1.2 HITERFERENCE-1 ITNITED SCENARIOS ............................................................... 51 3.1.2.1 INTERFERENCE FROM MACRO-CELLS ................................................52 3.1.2.2 HITERFEREIICE BETWEEN MACRO AND SMALL-CELLS .......................53 3.1.2.3 CONELUSIONS .............................................................................. 53 3.2 COORDINATED MULTIPOINT TRANSMISSION STRATEGIE ...........................................55 3.2.1 JOINT P RO C E SSIN G .................................................................................... 55 3.2.2 COORDINATED SCHEDULING/ COORDINATED BEAMFORMING ........................... 56 3.3 CORNPARISON OF INTERFERENCE AVOIDANCE AND INTER FERENCE EXPLOITATION . . . 59 3.3.1 A CASE EXARNPLE OF A HETEROGEIIEOUS N ETW ORK .................................... 59 3.3.2 INTERFERENCE AVOIDANCE............... 61 3.3.2.1 S UM-RATE MAXIMIZATION WITHOUT PEAK SUBCARRIER POWER C O N S TRA IN T .............................................................. 61 3.3.2.2 SMN-RATE MAXIMIZATION S.T. PEAK SUBCARRIER POWER CON STRAINT ....................................................................................... 63 3.3.2.3 CONCLUSIONS .............................................................................. 63 3.3.3 INTERFERENCE EXPLOITATION ..................................................................... 64 3.4 APPLICATION SCENARIOS OF A HAN-KOBAYASHI SCHEINE ....................................... 65 3.4.1 MACRO-MACRO INTERFERENCE SCENARIO . ......................................... 65 3.4.2 MACRO-PICO INTERFERENCE SCENARIO . ................................ 68 3.5 ON THE EXPANDED REGION OF A PICO-CELL . ......................................... 72 3.5.1 SYSTEM MODEL . ................................... 73 3.5.2 INTERFERENCE SCENARIO 1 ........................ . 74 3.5.3 INTERFERENCE SCENARIO 2 ....... . ....................... 75 3.5.4 KEY DESIGN A S P E E TS .............................................................................. 75 3.6 CONCHISIONS......................................................................................................... 76 4 SUCCESSIVE D ECOD IN G FOR H AN-K OBAYASHI BASED INTERFERENCE E XPLOITA TION 77 4.1 CAPACITY-APPROACHING CODING AND M O D U LATIO N ............................. 77 4.1.1 CODED M ODULATION .................... 78 4.1.2 TRELLIS CODED MODULATION.............................. 78 4.1.3 MULTI-LEVEL C O D IN G .................... 79 4.1.4 BIT-INTERLEAVED CODED M O D U LATIO N .......................................................79 4.1.5 SUPERPOSITION CODED MODULATION (SC M )..............................................80 4.2 DETECTION-DECODING FOR TWO-USER M A C ......................................................... 82 4.2.1 JOINT DETECTION-DECODING ..................................................................... 82 4.2.2 ITERATIVE D ETECTION-DECODING ..................................................... 83 4.2.3 RATE SPLITTING WITH SINGLE-USER DETECTION-DECODING ........ 85 4.3 DETECTION-DECODING FOR INTERFERENCE CHANNEL ....................... 86 4.3.1 JOINT DETECTION-DECODING . ..................................................... 86 4.3.2 ITERATIVE DETECTION-DECODING . .................................................. 87 4.3.3 RATE SPLITTING SCHEINE FOR A TWO-USER MAC ............. 90 4.4 MULTI-BAYER RATE SPLITTING FOR JOINT DECODING .................... 91 4.4.1 SYSTEM S TRU ETU RE ................. 92 4.4.2 POWER ALLOCATION FOR L -= 2 ...................................................................94 4.4.3 POWER ALLOCATION FOR L * 3 ...................................................................97 4.4.4 POWER ALLOCATION FOR ANY L ...................................................................99 4.4.5 EXTENSION TO WEAK INT CRFERCNEE C H A N N E LS ........................................ 101 4.5 CONCLUSIONS........................................................................................................105 5 S YSTEM D ESIGN O F M ULTI-LAYER R ATE SP LITTIN G 107 5.1 ANALYSIS AND DESIGN OF SCM ......................................................................... 107 5.1.1 SYSTEM M ODEL........................................................................................ 107 5.1.2 ITERATIVE DETECTION AND DECODING RECEIVER ........................................ 109 5.1.3 DETECTION SCHEINES............................................................................... 110 5.1.3.1 MSD AND LOG-APP DETECTION .............................................110 5.1.3.2 PARALLEL INDEPENDENT DECODING (P D L )..............................112 5.1.3.3 LINEAR DETECTION (L D ) .......................................................... 113 5.1.3.4 MSD WITH MMSE D E TE C TIO N .............................................117 5.1.3.5 SIMULATION RESULTS AND DISCUSSION....................................119 5.1.4 DESIGN OF SUPERPOSITION CODED MODULATION (SCM.) SYSTEM S .............. 119 5.1.4.1 SIGNAL CONSTELLATION GENERATION . ............................. 121 5.1.4.2 CAPACITY COMPARISON AND DISCUSSION . ............................... 121 5.2 MLRS SYSTEM BASED ON SCM-OFDM ................. 123 5.2.1 APPLICATION SCENARIO ................................... 123 5.2.2 TRANSMITTER STRUETURE BASED ON SC M -O FD M .................................. 125 5.2.3 RECEIVER STRUCTURE FOR INTERFERENCE EXPLOITATION ............................... 127 5.2.3.1 RECEIVER STRUCTURE IN A WEAK INTERFERENCE CHANNEL .... 128 5.2.3.2 RECEIVER STRUETURE IN A STRANG INTERFERENCE CHANNEL . . . 130 5.2.3.3 PERFORMANCE EVALUATION S E T U P ..........................................131 5.3 INTERFERENCE-AWARE DETECTION TECHNIQUES ....................................................... 131 5.3.1 TREE SEARCH BASED JOINT D ETE C TIO N ............................................ 133 5.3.2 INTERFERENCE R ANDOM IZATION ................................................................ 134 5.3.3 INTERFERENCE AVOIDANEE......................................................................... 136 5.3.4 SIMULATION RESULTS AND D ISCUSSION .................................................... 136 5.4 CONCLUSIONS.......................................................................................................139 6 M LRS S YSTEM FOR P RACTICAL A PPLICATIONS 141 6.1 APPLICATION OF THE SIMPLE HAN-KOBAYASLN SCHEINE ........................................ 141 6.1.1 TRANSMITTER S TRU C TU RE ......................................................................... 141 6.1.2 4 WO-STEP DECODING RECEIVER ............................................................. 142 6.1.3 SIMULATION RESULTS AND D ISCUSSION .................................................... 143 6.2 OPTIMAL POWER ALLOCATION FOR AN MLRS SYSTEM ........................................... 145 6.2.1 THE POWER ALLOCATION OPTIMIZATION P RO B LE M .................................. 145 6.2.2 OPTIMAL POWER SPLITTING FOR L = 2 ..................................................... 146 6.2.3 OPTIMAL POWER SPLITTING FOR L = 3 ..................................................... 149 6.2.4 SIMULATION RESULTS AND D ISCUSSION .................................................... 152 6.3 DISTRIBUTER! POWER ALLOCATION FOR AN MLRS S Y STE M ..................................... 154 6.3.1 BRIEF REVIEW OF GARNE T HEORY ............................................................. 154 6.3.2 PROBLEM FORMULATION AS A G A M E ....................................................... 157 6.3.2. .1 MAXIMIZATION OF SINN RATE OF ALL PLAYERS ...........................157 6.3.2.2 MAXIMIZATION OF SUIN RATE OF ALL L AYERS ............................. 158 6.3.2.3 MAXIMIZATION OF SINN LOGARITHMIC SINR OF ALL LAYERS . . 160 6.3.2.4 MAXIMIZATION OF SINN MUTUAL INFORMATION OF ALL LAYERS WITH SPCCITLED CONSTELLATION ...............................................161 6.3.2.5 S UM M ARY................................................................................163 6.3.3 DISTRIBUTER! ALGORITHM FOR GAME G2 ................................................163 6.3.4 DI,ST RIBUTED ALGORITHM FOR GAME G3 ................................................166 6.3.5 DISTRIBUTER! ALGORITHM FOR GARNE G4 ..................................................173 6.3.6 SIMULATION RESULTS AND D ISEUSSIOU ......................................... 184 6.4 CONCLUSIONS .......................... 186 7 C ONCLUSIONS 189 A R EVIEW O F M ATH EM ATICAL F OUNDATIONS 195 A.L WORST GASE NOISE LEMMA.................................................................................. 195 A.2 LOG-LIKELIHOOD R A TI O S ..................................................................................... 195 B R A TE A LLOCATION FOR T W O-U SER M A C 197 6.1 SYSTEM M ODEL.....................................................................................................197 6.2 DEFINITION OF EX1T CHARTS AND AREA T HEOREM ...............................................198 C S YSTEM SIM ULATION A SSU M P TION S 203 B IBLIOGRAPHY 205
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spelling	Zhou, Guangxia Verfasser (DE-588)1172050872 aut Rate-splitting methods for interference management in cellular wireless systems Guangxia Zhou Berlin Logos Verlag [2018] © 2018 238 Seiten 21 cm x 14.5 cm txt rdacontent n rdamedia nc rdacarrier Kanalkapazität (DE-588)4538367-4 gnd rswk-swf Zellulares Mobilfunksystem (DE-588)4387563-4 gnd rswk-swf Interferenzstörung (DE-588)4227294-4 gnd rswk-swf Störunterdrückung (DE-588)4312859-2 gnd rswk-swf Interference Management Rate Splitting Wireless Communications Cellular Networks Signal Processing Technische Universität Hamburg-Harburg (DE-588)4113937-9 Hochschulschrift gnd-content Zellulares Mobilfunksystem (DE-588)4387563-4 s Kanalkapazität (DE-588)4538367-4 s Interferenzstörung (DE-588)4227294-4 s Störunterdrückung (DE-588)4312859-2 s DE-604 Logos Verlag Berlin (DE-588)1065538812 pbl X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=21e872cb67ad43f38ccc769e0135b206&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030874281&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Zhou, Guangxia Rate-splitting methods for interference management in cellular wireless systems Kanalkapazität (DE-588)4538367-4 gnd Zellulares Mobilfunksystem (DE-588)4387563-4 gnd Interferenzstörung (DE-588)4227294-4 gnd Störunterdrückung (DE-588)4312859-2 gnd
subject_GND	(DE-588)4538367-4 (DE-588)4387563-4 (DE-588)4227294-4 (DE-588)4312859-2 (DE-588)4113937-9
title	Rate-splitting methods for interference management in cellular wireless systems
title_auth	Rate-splitting methods for interference management in cellular wireless systems
title_exact_search	Rate-splitting methods for interference management in cellular wireless systems
title_full	Rate-splitting methods for interference management in cellular wireless systems Guangxia Zhou
title_fullStr	Rate-splitting methods for interference management in cellular wireless systems Guangxia Zhou
title_full_unstemmed	Rate-splitting methods for interference management in cellular wireless systems Guangxia Zhou
title_short	Rate-splitting methods for interference management in cellular wireless systems
title_sort	rate splitting methods for interference management in cellular wireless systems
topic	Kanalkapazität (DE-588)4538367-4 gnd Zellulares Mobilfunksystem (DE-588)4387563-4 gnd Interferenzstörung (DE-588)4227294-4 gnd Störunterdrückung (DE-588)4312859-2 gnd
topic_facet	Kanalkapazität Zellulares Mobilfunksystem Interferenzstörung Störunterdrückung Hochschulschrift
url	http://deposit.dnb.de/cgi-bin/dokserv?id=21e872cb67ad43f38ccc769e0135b206&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030874281&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT zhouguangxia ratesplittingmethodsforinterferencemanagementincellularwirelesssystems AT logosverlagberlin ratesplittingmethodsforinterferencemanagementincellularwirelesssystems

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