Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication. (2019)
- Record Type:
- Book
- Title:
- Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication. (2019)
- Main Title:
- Statistical Robust Beamforming for Broadcast Channels and Applications in Satellite Communication
- Further Information:
- Note: Andreas Gründinger.
- Other Names:
- Gründinger, Andreas
- 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-ForcingIntro; 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 … (more)
- Publisher Details:
- Cham : Springer
- Publication Date:
- 2019
- Extent:
- 1 online resource (261 pages)
- Subjects:
- 621.382/2
Beamforming
Beamforming
Electronic books - Languages:
- English
- ISBNs:
- 9783030295783
3030295788 - Related ISBNs:
- 9783030295776
303029577X - Notes:
- Note: Includes bibliographical references and index.
Note: Print version record. - Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Physical Locations:
- British Library HMNTS - ELD.DS.475849
- Ingest File:
- 03_027.xml