Coverart for item
The Resource Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication, Andreas Gründinger, (electronic book)

Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication, Andreas Gründinger, (electronic book)

Label
Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication
Title
Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication
Statement of responsibility
Andreas Gründinger
Creator
Subject
Language
  • eng
  • eng
  • ger
  • eng
  • eng
Member of
Cataloging source
EBLCP
http://library.link/vocab/creatorName
Gründinger, Andreas
Dewey number
621.382/2
Index
index present
Language note
Abstracts in English and German
LC call number
  • TK5103.2
  • TA1-2040
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
Series statement
Foundations in Signal Processing, Communications and Networking
Series volume
v.22
http://library.link/vocab/subjectName
Beamforming
Label
Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication, Andreas Gründinger, (electronic book)
Instantiates
Publication
Note
  • Description based upon print version of record
  • 4.5.3.1 Uplink Weighted Sum-MSE Minimization
Antecedent source
file reproduced from an electronic resource
Bibliography note
Includes bibliographical references and index
Contents
  • Intro; Preface; Acknowledgments; Introduction; Zusammenfassung; Contents; Acronyms; Nomenclature; List of Figures; List of Tables; 1 Multi-User Downlink Communication; 1.1 Gaussian Vector Broadcast Channel Model; 1.2 Quality-of-Service Optimization and Rate Balancing; 1.2.1 Quality-of-Service Optimization Problem; 1.2.2 Rate Balancing Problem; 1.2.3 Relation Between the Problems; 1.3 Solutions for Perfect Transmitter Channel Knowledge; 1.3.1 Uplink-Downlink Duality and Uplink Power Allocation; 1.3.2 Convex Problem Reformulations; 1.3.3 Quality-of-Service Feasibility
  • 1.4 Beamformer Design with Multiple Power Constraints1.4.1 QoS Optimization and Balancing with Multiple Power Constraints; 1.5 Outline of the Chapters and the Contributions; 1.5.1 Contributions for Ergodic Rates with Multiplicative Channel Errors; 1.5.2 Contributions for Average MSEs with Additive Channel Errors; 1.5.3 Contributions for Outage Rate Requirements; 1.5.4 Applications to Satellite Communication; 2 Models for Incomplete Channel Knowledge; 2.1 Additive Error Models; 2.1.1 Deterministic Channel Models; 2.1.2 Stochastic Channel Models; 2.1.3 Quantization Errors and Delays
  • 2.2 Multiplicative Error Models2.2.1 Deterministic Channel and Shadow Fading; 2.2.2 Rank-One Channel Covariance Matrix; 2.3 Multiplicative Approximations for Additive Fading; 3 Precoder Design for Ergodic Rates with Multiplicative Fading; 3.1 Closed-Form Rate Expressions; 3.2 Lower and Upper Rate Bounds; 3.2.1 Generalized Zero-Forcing Lower Bound; 3.2.2 Bounds for Adaptive Beamforming; 3.2.3 QoS and Balancing Optimization with Rate Bounds; 3.2.3.1 Iterative Inner Rate Balancing Optimization; 3.2.3.2 Outer Worst-Case Noise Optimization; 3.2.3.3 Uplink-Downlink Transformation
  • 3.3 Quality-of-Service Feasibility Region3.4 Post-Processing Power Allocation; 3.4.1 Post-Processing for QoS Optimization; 3.4.2 Post-Processing for Ergodic Rate Balancing; 3.5 Sequential Approximation Strategy; 3.5.1 Sequential Quality-of-Service Optimization; 3.5.2 Sequential Ergodic Rate Balancing; 3.6 Branch and Bound Method; 3.7 Numerical Optimization Results for Ergodic Rates; 3.7.1 Power Minimization Results; 3.7.2 Rate Balancing Results; 3.7.3 Results for Sequential QoS Optimization and Balancing; 4 Mean Square Error Transceiver Design for AdditiveFading
  • 4.1 Mean Square Error Based Rate Bounds4.2 Closed-Form Mean Square Error Expressions; 4.3 Quality-of-Service Optimization; 4.3.1 MSE Based Uplink-Downlink Dualities; 4.3.2 Power Allocation and Worst-Case Noise Search; 4.3.3 Primal Reconstruction of Beamformers; 4.3.4 Expectation Evaluation for Alternating Convex Optimization; 4.4 Quality-of-Service Feasibility Region; 4.5 Average Mean Square Error Balancing; 4.5.1 Alternating Convex Search for Balancing; 4.5.2 Uplink-Downlink Dualities for Balancing; 4.5.3 Iterative Minimum Mean Square Error Search
Dimensions
unknown
Extent
1 online resource (261 p.).
File format
one file format
Form of item
online
Isbn
9783030295776
Level of compression
unknown
Quality assurance targets
unknown
Reformatting quality
unknown
Specific material designation
remote
System control number
  • on1129191983
  • (OCoLC)1129191983
Label
Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication, Andreas Gründinger, (electronic book)
Publication
Note
  • Description based upon print version of record
  • 4.5.3.1 Uplink Weighted Sum-MSE Minimization
Antecedent source
file reproduced from an electronic resource
Bibliography note
Includes bibliographical references and index
Contents
  • Intro; Preface; Acknowledgments; Introduction; Zusammenfassung; Contents; Acronyms; Nomenclature; List of Figures; List of Tables; 1 Multi-User Downlink Communication; 1.1 Gaussian Vector Broadcast Channel Model; 1.2 Quality-of-Service Optimization and Rate Balancing; 1.2.1 Quality-of-Service Optimization Problem; 1.2.2 Rate Balancing Problem; 1.2.3 Relation Between the Problems; 1.3 Solutions for Perfect Transmitter Channel Knowledge; 1.3.1 Uplink-Downlink Duality and Uplink Power Allocation; 1.3.2 Convex Problem Reformulations; 1.3.3 Quality-of-Service Feasibility
  • 1.4 Beamformer Design with Multiple Power Constraints1.4.1 QoS Optimization and Balancing with Multiple Power Constraints; 1.5 Outline of the Chapters and the Contributions; 1.5.1 Contributions for Ergodic Rates with Multiplicative Channel Errors; 1.5.2 Contributions for Average MSEs with Additive Channel Errors; 1.5.3 Contributions for Outage Rate Requirements; 1.5.4 Applications to Satellite Communication; 2 Models for Incomplete Channel Knowledge; 2.1 Additive Error Models; 2.1.1 Deterministic Channel Models; 2.1.2 Stochastic Channel Models; 2.1.3 Quantization Errors and Delays
  • 2.2 Multiplicative Error Models2.2.1 Deterministic Channel and Shadow Fading; 2.2.2 Rank-One Channel Covariance Matrix; 2.3 Multiplicative Approximations for Additive Fading; 3 Precoder Design for Ergodic Rates with Multiplicative Fading; 3.1 Closed-Form Rate Expressions; 3.2 Lower and Upper Rate Bounds; 3.2.1 Generalized Zero-Forcing Lower Bound; 3.2.2 Bounds for Adaptive Beamforming; 3.2.3 QoS and Balancing Optimization with Rate Bounds; 3.2.3.1 Iterative Inner Rate Balancing Optimization; 3.2.3.2 Outer Worst-Case Noise Optimization; 3.2.3.3 Uplink-Downlink Transformation
  • 3.3 Quality-of-Service Feasibility Region3.4 Post-Processing Power Allocation; 3.4.1 Post-Processing for QoS Optimization; 3.4.2 Post-Processing for Ergodic Rate Balancing; 3.5 Sequential Approximation Strategy; 3.5.1 Sequential Quality-of-Service Optimization; 3.5.2 Sequential Ergodic Rate Balancing; 3.6 Branch and Bound Method; 3.7 Numerical Optimization Results for Ergodic Rates; 3.7.1 Power Minimization Results; 3.7.2 Rate Balancing Results; 3.7.3 Results for Sequential QoS Optimization and Balancing; 4 Mean Square Error Transceiver Design for AdditiveFading
  • 4.1 Mean Square Error Based Rate Bounds4.2 Closed-Form Mean Square Error Expressions; 4.3 Quality-of-Service Optimization; 4.3.1 MSE Based Uplink-Downlink Dualities; 4.3.2 Power Allocation and Worst-Case Noise Search; 4.3.3 Primal Reconstruction of Beamformers; 4.3.4 Expectation Evaluation for Alternating Convex Optimization; 4.4 Quality-of-Service Feasibility Region; 4.5 Average Mean Square Error Balancing; 4.5.1 Alternating Convex Search for Balancing; 4.5.2 Uplink-Downlink Dualities for Balancing; 4.5.3 Iterative Minimum Mean Square Error Search
Dimensions
unknown
Extent
1 online resource (261 p.).
File format
one file format
Form of item
online
Isbn
9783030295776
Level of compression
unknown
Quality assurance targets
unknown
Reformatting quality
unknown
Specific material designation
remote
System control number
  • on1129191983
  • (OCoLC)1129191983

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