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Coding for MIMO communication systems / / Tolga M. Duman, Ali Ghrayeb
Coding for MIMO communication systems / / Tolga M. Duman, Ali Ghrayeb
Autore Duman Tolga M.
Pubbl/distr/stampa Chichester, England ; , : J. Wiley & Sons, , c2007
Descrizione fisica 1 online resource (368 p.)
Disciplina 621.3840285/572
Altri autori (Persone) GhrayebAli
Soggetto topico Space time codes
MIMO systems
Wireless communication systems
ISBN 1-282-12310-6
9786612123108
0-470-72434-X
0-470-72433-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto About the Authors. -- Preface -- List of Figures -- List of Tables -- Notation -- Abbreviations -- 1 Overview -- 1.1 Need for MIMO Systems -- 1.2 MIMO Communications in Wireless Standards -- 1.3 Organization of the Book -- 1.4 Other Topics in MIMO Systems -- 2 Fading Channels and Diversity Techniques -- 2.1 Wireless Channels -- 2.1.1 Path Loss, Shadowing and Small Scale Fading -- 2.1.2 Fading Channel Models -- 2.2 Error/Outage Probabilities over Fading Channels -- 2.2.1 Outage Probability for Rayleigh Fading Channels -- 2.2.2 Average Error Probabilities over Rayleigh Fading Channels -- 2.2.3 Extensions to Other Fading Channels -- 2.2.4 Performance over Frequency Selective Fading Channels -- 2.3 Diversity Techniques -- 2.3.1 Types of Diversity -- 2.3.2 System Model for Lth Order Diversity -- 2.3.3 Maximal Ratio Combining (MRC) -- 2.3.4 Suboptimal Combining Algorithms -- 2.3.5 Selection Combining -- 2.3.6 Examples -- 2.4 Channel Coding as a Means of Time Diversity -- 2.4.1 Block Coding over a Fully Interleaved Channel -- 2.4.2 Convolutional Coding -- 2.5 Multiple Antennas in Wireless Communications -- 2.5.1 Receive Diversity -- 2.5.2 Smart Antennas and Beamforming -- 2.6 Chapter Summary and Further Reading -- 3 Capacity and Information Rates of MIMO Channels -- 3.1 Capacity and Information Rates of Noisy Channels -- 3.2 Capacity and Information Rates of AWGN and Fading Channels -- 3.2.1 AWGN Channels -- 3.2.2 Fading Channels -- 3.3 Capacity of MIMO Channels -- 3.3.1 Deterministic MIMO Channels -- 3.3.2 Ergodic MIMO Channels -- 3.3.3 Non-Ergodic MIMO Channels and Outage Capacity -- 3.3.4 Transmit CSI for MIMO Fading Channels -- 3.4 Constrained Signaling for MIMO Communications -- 3.5 Discussion: Why Use MIMO Systems? -- 3.6 Chapter Summary and Further Reading. -- 4 Space-Time Block Codes -- 4.1 Transmit Diversity with Two Antennas: The Alamouti Scheme -- 4.1.1 Transmission Scheme -- 4.1.2 Optimal Receiver for the Alamouti Scheme -- 4.1.3 Performance Analysis of the Alamouti Scheme.
4.1.4 Examples -- 4.2 Orthogonal Space-Time Block Codes -- 4.2.1 Linear Orthogonal Designs -- 4.2.2 Decoding of General Space-Time Block Codes -- 4.2.3 Performance Analysis of Space-Time Block Codes. -- 4.2.4 Examples -- 4.3 Quasi-Orthogonal Space-Time Block Codes -- 4.4 Linear Dispersion Codes -- 4.5 Chapter Summary and Further Reading. -- 5 Space-Time Trellis Codes -- 5.1 A Simple Space-Time Trellis Code -- 5.2 General Space-Time Trellis Codes -- 5.2.1 Notation and Preliminaries -- 5.2.2 Decoding of Space-Time Trellis Codes -- 5.3 Basic Space-Time Code Design Principles -- 5.3.1 Pairwise Error Probability -- 5.3.2 Space-Time Code Design Principles -- 5.3.3 Examples of Good Space-Time Codes -- 5.3.4 Space-Time Trellis Codes for Fast Fading Channels -- 5.4 Representation for Space-Time Trellis Codes for PSK Constellations -- 5.4.1 Generator Matrix Representation -- 5.4.2 Improved Space-Time Code Design -- 5.5 Performance Analysis for Space-Time Trellis Codes -- 5.5.1 Union Bound for Space-Time Trellis Codes -- 5.5.2 Useful Performance Bounds for Space-Time Trellis Codes -- 5.5.3 Examples -- 5.6 Comparison of Space-Time Block and Trellis Codes -- 5.7 Chapter Summary and Further Reading -- 6 Layered Space-Time Codes. -- 6.1 Basic Bell Labs Layered Space-Time (BLAST) Architectures -- 6.1.1 VBLAST/HBLAST/SCBLAST -- 6.1.2 Detection Algorithms for Basic BLAST Architectures -- 6.1.3 Examples -- 6.2 Diagonal BLAST (DBLAST) -- 6.2.1 Detection Algorithms for DBLAST -- 6.2.2 Examples -- 6.3 Multilayered Space-Time Coding -- 6.3.1 Encoder Structure -- 6.3.2 Group Interference Cancellation Detection -- 6.3.3 Example -- 6.4 Threaded Space-Time Codes -- 6.4.1 Layering Approach -- 6.4.2 Threaded Space-Time Code Design -- 6.4.3 Example -- 6.4.4 Detection of Threaded Space-Time Codes -- 6.5 Other Detection Algorithms for Spatial Multiplexing Systems -- 6.5.1 Greedy Detection -- 6.5.2 Belief Propagation Detection -- 6.5.3 Turbo-BLAST Detection -- 6.5.4 Reduced Complexity ZF/MMSE Detection.
6.5.5 Sphere Decoding -- 6.6 Diversity/Multiplexing Gain Trade-off -- 6.7 Chapter Summary and Further Reading -- 7 Concatenated Codes and Iterative Decoding -- 7.1 Development of Concatenated Codes -- 7.2 Concatenated Codes for AWGN Channels -- 7.2.1 Encoder Structures -- 7.2.2 Iterative Decoder Structures -- 7.2.3 The SOVA Decoder -- 7.2.4 Performance with Maximum Likelihood Decoding -- 7.2.5 Examples -- 7.3 Concatenated Codes for MIMO Channels -- 7.3.1 Concatenated Space-Time Turbo Coding Scheme -- 7.3.2 Turbo Space-Time Trellis Coding Scheme -- 7.3.3 Turbo Space-Time Coding Scheme -- 7.4 Turbo Coded Modulation for MIMO Channels -- 7.4.1 Encoder Structure -- 7.4.2 Decoder Structure -- 7.4.3 Examples -- 7.5 Concatenated Space-Time Block Coding -- 7.5.1 Encoder Structure -- 7.5.2 Decoder Structure -- 7.5.3 Performance Analysis -- 7.5.4 Examples -- 7.6 Chapter Summary and Further Reading. -- 8 Unitary and Differential Space-Time Codes -- 8.1 Capacity of Noncoherent MIMO Channels -- 8.1.1 Channel Capacity -- 8.1.2 Capacity Achieving Signals -- 8.2 Unitary Space-Time Codes -- 8.2.1 USTC Encoder -- 8.2.2 ML Detection of USTCs -- 8.2.3 Performance Analysis -- 8.2.4 Construction of Unitary Space-Time Signals -- 8.2.5 Examples -- 8.3 Differential Space-Time Codes -- 8.3.1 Differential Space-Time Coding for Single Antenna Systems -- 8.3.2 Differential Space-Time Coding for MIMO Systems -- 8.4 Turbo Coded Unitary Space-Time Codes -- 8.4.1 Encoder Structure -- 8.4.2 Noncoherent Iterative Decoder -- 8.4.3 Example. -- 8.5 Trellis Coded Unitary Space-Time Codes -- 8.6 Turbo Coded Differential Space-Time Codes -- 8.6.1 Encoder Structure -- 8.6.2 Iterative Detectors -- 8.7 Chapter Summary and Further Reading -- 9 Space-Time Coding for Frequency Selective Fading Channels -- 9.1 MIMO Frequency Selective Channels -- 9.2 Capacity and Information Rates of MIMO Frequency Selective Fading Channels -- 9.2.1 Information Rates with Gaussian Inputs -- 9.2.2 Achievable Information Rates with Practical Constellations.
9.2.3 Examples -- 9.3 Space-Time Coding for MIMO FS Channels -- 9.3.1 Interpretation of MIMO FS Channels Using Virtual Antennas -- 9.3.2 A Simple Full Diversity Code for MIMO FS Channels -- 9.3.3 Space-Time Trellis Codes for MIMO FS Channels -- 9.3.4 Concatenated Coding for MIMO FS Channels -- 9.3.5 Spatial Multiplexing for MIMO FS Channels -- 9.4 Channel Detection for MIMO FS Channels -- 9.4.1 Linear Equalization for MIMO FS Channels -- 9.4.2 Decision Feedback Equalization for MIMO FS Channels -- 9.4.3 Soft Input Soft Output Channel Detection -- 9.4.4 Other Reduced Complexity Approaches -- 9.5 MIMO OFDM Systems -- 9.5.1 MIMO-OFDM Channel Model -- 9.5.2 Space-Frequency Coding -- 9.5.3 Challenges in MIMO-OFDM -- 9.6 Chapter Summary and Further Reading -- 10 Practical Issues in MIMO Communications -- 10.1 Channel State Information Estimation -- 10.1.1 CSI Estimation Using Pilot Tones -- 10.1.2 What to Do with CSI? -- 10.1.3 Space-Time Coding Examples with Estimated CSI -- 10.2 Spatial Channel Correlation for MIMO Systems -- 10.2.1 Measurements and Modeling of Spatial Correlation -- 10.2.2 Spatial Channel Correlation Models -- 10.2.3 Channel Capacity with Spatial Correlation -- 10.2.4 Space-Time Code Performance with Spatial Correlation -- 10.3 Temporal Channel Correlation -- 10.4 MIMO Communication System Design Issues -- 10.5 Chapter Summary and Further Reading -- 11 Antenna Selection for MIMO Systems -- 11.1 Capacity-based Antenna Selection -- 11.1.1 System Model -- 11.1.2 Optimal Selection -- 11.1.3 Simplified (Suboptimal) Selection -- 11.1.4 Examples -- 11.2 Energy-based Antenna Selection -- 11.3 Antenna Selection for Space-Time Trellis Codes -- 11.3.1 Quasi-Static Fading Channels -- 11.3.2 Block Fading Channels -- 11.3.3 Fast Fading Channels -- 11.3.4 Examples -- 11.4 Antenna Selection for Space-Time Block Codes -- 11.4.1 Receive Antenna Selection -- 11.4.2 Transmit Antenna Selection -- 11.4.3 Examples -- 11.5 Antenna Selection for Combined Channel Coding and Orthogonal STBCs.
11.5.1 Performance Analysis -- 11.5.2 Examples -- 11.6 Antenna Selection for Frequency Selective Channels -- 11.7 Antenna Selection with Nonidealities -- 11.7.1 Impact of Spatial Correlation -- 11.7.2 Example -- 11.7.3 Impact of Channel Estimation Error -- 11.8 Chapter Summary and Further Reading -- Bibliography -- Index.
Record Nr. UNINA-9910144580503321
Duman Tolga M.  
Chichester, England ; , : J. Wiley & Sons, , c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Coding for MIMO communication systems / / Tolga M. Duman, Ali Ghrayeb
Coding for MIMO communication systems / / Tolga M. Duman, Ali Ghrayeb
Autore Duman Tolga M
Edizione [1st ed.]
Pubbl/distr/stampa Chichester, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2007
Descrizione fisica 1 online resource (368 p.)
Disciplina 621.3840285/572
Altri autori (Persone) GhrayebAli
Soggetto topico Space time codes
MIMO systems
Wireless communication systems
ISBN 9786612123108
9781282123106
1282123106
9780470724347
047072434X
9780470724330
0470724331
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto About the Authors. -- Preface -- List of Figures -- List of Tables -- Notation -- Abbreviations -- 1 Overview -- 1.1 Need for MIMO Systems -- 1.2 MIMO Communications in Wireless Standards -- 1.3 Organization of the Book -- 1.4 Other Topics in MIMO Systems -- 2 Fading Channels and Diversity Techniques -- 2.1 Wireless Channels -- 2.1.1 Path Loss, Shadowing and Small Scale Fading -- 2.1.2 Fading Channel Models -- 2.2 Error/Outage Probabilities over Fading Channels -- 2.2.1 Outage Probability for Rayleigh Fading Channels -- 2.2.2 Average Error Probabilities over Rayleigh Fading Channels -- 2.2.3 Extensions to Other Fading Channels -- 2.2.4 Performance over Frequency Selective Fading Channels -- 2.3 Diversity Techniques -- 2.3.1 Types of Diversity -- 2.3.2 System Model for Lth Order Diversity -- 2.3.3 Maximal Ratio Combining (MRC) -- 2.3.4 Suboptimal Combining Algorithms -- 2.3.5 Selection Combining -- 2.3.6 Examples -- 2.4 Channel Coding as a Means of Time Diversity -- 2.4.1 Block Coding over a Fully Interleaved Channel -- 2.4.2 Convolutional Coding -- 2.5 Multiple Antennas in Wireless Communications -- 2.5.1 Receive Diversity -- 2.5.2 Smart Antennas and Beamforming -- 2.6 Chapter Summary and Further Reading -- 3 Capacity and Information Rates of MIMO Channels -- 3.1 Capacity and Information Rates of Noisy Channels -- 3.2 Capacity and Information Rates of AWGN and Fading Channels -- 3.2.1 AWGN Channels -- 3.2.2 Fading Channels -- 3.3 Capacity of MIMO Channels -- 3.3.1 Deterministic MIMO Channels -- 3.3.2 Ergodic MIMO Channels -- 3.3.3 Non-Ergodic MIMO Channels and Outage Capacity -- 3.3.4 Transmit CSI for MIMO Fading Channels -- 3.4 Constrained Signaling for MIMO Communications -- 3.5 Discussion: Why Use MIMO Systems? -- 3.6 Chapter Summary and Further Reading. -- 4 Space-Time Block Codes -- 4.1 Transmit Diversity with Two Antennas: The Alamouti Scheme -- 4.1.1 Transmission Scheme -- 4.1.2 Optimal Receiver for the Alamouti Scheme -- 4.1.3 Performance Analysis of the Alamouti Scheme.
4.1.4 Examples -- 4.2 Orthogonal Space-Time Block Codes -- 4.2.1 Linear Orthogonal Designs -- 4.2.2 Decoding of General Space-Time Block Codes -- 4.2.3 Performance Analysis of Space-Time Block Codes. -- 4.2.4 Examples -- 4.3 Quasi-Orthogonal Space-Time Block Codes -- 4.4 Linear Dispersion Codes -- 4.5 Chapter Summary and Further Reading. -- 5 Space-Time Trellis Codes -- 5.1 A Simple Space-Time Trellis Code -- 5.2 General Space-Time Trellis Codes -- 5.2.1 Notation and Preliminaries -- 5.2.2 Decoding of Space-Time Trellis Codes -- 5.3 Basic Space-Time Code Design Principles -- 5.3.1 Pairwise Error Probability -- 5.3.2 Space-Time Code Design Principles -- 5.3.3 Examples of Good Space-Time Codes -- 5.3.4 Space-Time Trellis Codes for Fast Fading Channels -- 5.4 Representation for Space-Time Trellis Codes for PSK Constellations -- 5.4.1 Generator Matrix Representation -- 5.4.2 Improved Space-Time Code Design -- 5.5 Performance Analysis for Space-Time Trellis Codes -- 5.5.1 Union Bound for Space-Time Trellis Codes -- 5.5.2 Useful Performance Bounds for Space-Time Trellis Codes -- 5.5.3 Examples -- 5.6 Comparison of Space-Time Block and Trellis Codes -- 5.7 Chapter Summary and Further Reading -- 6 Layered Space-Time Codes. -- 6.1 Basic Bell Labs Layered Space-Time (BLAST) Architectures -- 6.1.1 VBLAST/HBLAST/SCBLAST -- 6.1.2 Detection Algorithms for Basic BLAST Architectures -- 6.1.3 Examples -- 6.2 Diagonal BLAST (DBLAST) -- 6.2.1 Detection Algorithms for DBLAST -- 6.2.2 Examples -- 6.3 Multilayered Space-Time Coding -- 6.3.1 Encoder Structure -- 6.3.2 Group Interference Cancellation Detection -- 6.3.3 Example -- 6.4 Threaded Space-Time Codes -- 6.4.1 Layering Approach -- 6.4.2 Threaded Space-Time Code Design -- 6.4.3 Example -- 6.4.4 Detection of Threaded Space-Time Codes -- 6.5 Other Detection Algorithms for Spatial Multiplexing Systems -- 6.5.1 Greedy Detection -- 6.5.2 Belief Propagation Detection -- 6.5.3 Turbo-BLAST Detection -- 6.5.4 Reduced Complexity ZF/MMSE Detection.
6.5.5 Sphere Decoding -- 6.6 Diversity/Multiplexing Gain Trade-off -- 6.7 Chapter Summary and Further Reading -- 7 Concatenated Codes and Iterative Decoding -- 7.1 Development of Concatenated Codes -- 7.2 Concatenated Codes for AWGN Channels -- 7.2.1 Encoder Structures -- 7.2.2 Iterative Decoder Structures -- 7.2.3 The SOVA Decoder -- 7.2.4 Performance with Maximum Likelihood Decoding -- 7.2.5 Examples -- 7.3 Concatenated Codes for MIMO Channels -- 7.3.1 Concatenated Space-Time Turbo Coding Scheme -- 7.3.2 Turbo Space-Time Trellis Coding Scheme -- 7.3.3 Turbo Space-Time Coding Scheme -- 7.4 Turbo Coded Modulation for MIMO Channels -- 7.4.1 Encoder Structure -- 7.4.2 Decoder Structure -- 7.4.3 Examples -- 7.5 Concatenated Space-Time Block Coding -- 7.5.1 Encoder Structure -- 7.5.2 Decoder Structure -- 7.5.3 Performance Analysis -- 7.5.4 Examples -- 7.6 Chapter Summary and Further Reading. -- 8 Unitary and Differential Space-Time Codes -- 8.1 Capacity of Noncoherent MIMO Channels -- 8.1.1 Channel Capacity -- 8.1.2 Capacity Achieving Signals -- 8.2 Unitary Space-Time Codes -- 8.2.1 USTC Encoder -- 8.2.2 ML Detection of USTCs -- 8.2.3 Performance Analysis -- 8.2.4 Construction of Unitary Space-Time Signals -- 8.2.5 Examples -- 8.3 Differential Space-Time Codes -- 8.3.1 Differential Space-Time Coding for Single Antenna Systems -- 8.3.2 Differential Space-Time Coding for MIMO Systems -- 8.4 Turbo Coded Unitary Space-Time Codes -- 8.4.1 Encoder Structure -- 8.4.2 Noncoherent Iterative Decoder -- 8.4.3 Example. -- 8.5 Trellis Coded Unitary Space-Time Codes -- 8.6 Turbo Coded Differential Space-Time Codes -- 8.6.1 Encoder Structure -- 8.6.2 Iterative Detectors -- 8.7 Chapter Summary and Further Reading -- 9 Space-Time Coding for Frequency Selective Fading Channels -- 9.1 MIMO Frequency Selective Channels -- 9.2 Capacity and Information Rates of MIMO Frequency Selective Fading Channels -- 9.2.1 Information Rates with Gaussian Inputs -- 9.2.2 Achievable Information Rates with Practical Constellations.
9.2.3 Examples -- 9.3 Space-Time Coding for MIMO FS Channels -- 9.3.1 Interpretation of MIMO FS Channels Using Virtual Antennas -- 9.3.2 A Simple Full Diversity Code for MIMO FS Channels -- 9.3.3 Space-Time Trellis Codes for MIMO FS Channels -- 9.3.4 Concatenated Coding for MIMO FS Channels -- 9.3.5 Spatial Multiplexing for MIMO FS Channels -- 9.4 Channel Detection for MIMO FS Channels -- 9.4.1 Linear Equalization for MIMO FS Channels -- 9.4.2 Decision Feedback Equalization for MIMO FS Channels -- 9.4.3 Soft Input Soft Output Channel Detection -- 9.4.4 Other Reduced Complexity Approaches -- 9.5 MIMO OFDM Systems -- 9.5.1 MIMO-OFDM Channel Model -- 9.5.2 Space-Frequency Coding -- 9.5.3 Challenges in MIMO-OFDM -- 9.6 Chapter Summary and Further Reading -- 10 Practical Issues in MIMO Communications -- 10.1 Channel State Information Estimation -- 10.1.1 CSI Estimation Using Pilot Tones -- 10.1.2 What to Do with CSI? -- 10.1.3 Space-Time Coding Examples with Estimated CSI -- 10.2 Spatial Channel Correlation for MIMO Systems -- 10.2.1 Measurements and Modeling of Spatial Correlation -- 10.2.2 Spatial Channel Correlation Models -- 10.2.3 Channel Capacity with Spatial Correlation -- 10.2.4 Space-Time Code Performance with Spatial Correlation -- 10.3 Temporal Channel Correlation -- 10.4 MIMO Communication System Design Issues -- 10.5 Chapter Summary and Further Reading -- 11 Antenna Selection for MIMO Systems -- 11.1 Capacity-based Antenna Selection -- 11.1.1 System Model -- 11.1.2 Optimal Selection -- 11.1.3 Simplified (Suboptimal) Selection -- 11.1.4 Examples -- 11.2 Energy-based Antenna Selection -- 11.3 Antenna Selection for Space-Time Trellis Codes -- 11.3.1 Quasi-Static Fading Channels -- 11.3.2 Block Fading Channels -- 11.3.3 Fast Fading Channels -- 11.3.4 Examples -- 11.4 Antenna Selection for Space-Time Block Codes -- 11.4.1 Receive Antenna Selection -- 11.4.2 Transmit Antenna Selection -- 11.4.3 Examples -- 11.5 Antenna Selection for Combined Channel Coding and Orthogonal STBCs.
11.5.1 Performance Analysis -- 11.5.2 Examples -- 11.6 Antenna Selection for Frequency Selective Channels -- 11.7 Antenna Selection with Nonidealities -- 11.7.1 Impact of Spatial Correlation -- 11.7.2 Example -- 11.7.3 Impact of Channel Estimation Error -- 11.8 Chapter Summary and Further Reading -- Bibliography -- Index.
Record Nr. UNINA-9910819169203321
Duman Tolga M  
Chichester, England ; ; Hoboken, NJ, : J. Wiley & Sons, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Quasi-orthogonal space-time block code [[electronic resource] /] / Chau Yuen, Yong Liang Guan, Tjeng Thiang Tjhung
Quasi-orthogonal space-time block code [[electronic resource] /] / Chau Yuen, Yong Liang Guan, Tjeng Thiang Tjhung
Autore Yuen Chau
Pubbl/distr/stampa London ; ; Imperial College Press ; ; Hackensack, NJ, : Distributed by World Scientific, c2007
Descrizione fisica 1 online resource (208 p.)
Disciplina 621.3822
Altri autori (Persone) GuanYong Liang
TjhungTjeng Thiang
Collana Communications and signal processing
Soggetto topico Space time codes
MIMO systems
Soggetto genere / forma Electronic books.
ISBN 1-281-86764-0
9786611867645
1-86094-869-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; Foreword; 1 . Introduction of MIMO Channel and Space-Time Block Code; 1.1 MIMO Channel for Wireless Communications; 1.2 Transmit Diversity with Space-Time Block Code; 1.3 Notations and Abbreviations; 1.4 Signal Model of MIMO Channel and STBC; 1.4.1 Signal model of MIMO channel; 1.4.2 Signal model of STBC; 1.5 Design Criteria and Performance Measure of STBC; 2 . Orthogonal and Quasi-Orthogonal Space-Time Block Code; 2.1 Orthogonal Space-Time Block Code; 2.1.1 Benefits of 0-STBC; 2.1.2 Background of amicable orthogonal design; 2.1.3 Construction of 0-STBC and its rate limitation
2.2 Quasi-Orthogonal Space-Time Block Code2.2.1 Approaching capacity with low decoding complexity; 2.2.2 Performance optimization of QO-STBC; 2.2.2.1 Full-diversity QO-STBC with constellation rotation; 2.2.2.2 Full-diversity QO-STBC without constellation rotation; 2.2.3 Remark; 3 . Insights of QO-STBC; 3.1 Algebraic Structure of QO-STBC; 3.1.1 Decoding complexity of a QO-STBC; 3.1.2 Maximal symbol-wise diversity of a QO-STBC; 3.2 Generalized Decoding Framework of QO-STBC; 3.3 Impact of Constellation Rotation on the Decoding Complexity of QO-STBC
3.3.1 Simplified QO-STBC model with real symbols only3.3.2 Decoding complexity of QO-STBC with CR; 3.4 Group-Constrained Linear Transformation; 3.4.1 Definition of GCLT; 3.4.2 Optimization of GCLT parameters; 3.4.2.1 GCLT of J4; 3.4.2.2 GCLT of J8; 3.4.2.3 GCLTof TBH8; 3.4.3 Performance comparison; 3.4.3.1 ML decoding complexity; 3.4.3.2 Decoding performance; 3.5 Chapter Summary; 4 . Quasi-Orthogonal Space-Time Block Code with Minimum Decoding Complexity; 4.1 Algebraic Structure of MDC-QOSTBC; 4.2 Square MDC-QOSTBC Design; 4.2.1 Definition of preferred AOD pair
4.2.2 Relationship between MDC-QOSTBC and AOD through preferred AOD pair4.2.3 Lower bound on the code rate for square design; 4.2.4 Construction of preferred AOD pair; 4.2.4.1 Quaternion; 4.2.4.2 Systematic construction of preferred AOD pair; 4.2.4.3 Examples of MDC-QOSTBC constructed)om preferred AOD pair; 4.3 Construction of MDC-QOSTBC from 0-STBC; 4.3.1 Construction method; 4.3.2 Performance optimization; 4.3.2.1 Diversity product of MDC-QOSTBC; 4.3.2.2 Optimum CR angle for square- and rectangular-QAM; 4.3.2.3 Optimum CR angle for PSK; 4.3.3 Non-square MDC-QOSTBC design
4.3.3.1 MDC-QOSTBC for odd number of transmit antennas4.3.3.2 Maximum code rate of square MDC-QOSTBC; 4.3.3.3 Maximum code rate of non-square MDC-QOSTBC; 4.4 Performance Results; 4.5 Chapter Summary; 5 . Differential QO-STBC; 5.1 DSTM Codeword Model and Design Criteria; 5.2 Unitary DSTM Based on QO-STBC; 5.2.1 Literature review; 5.2.2 Signal model of unitary DSTM scheme; 5.2.3 Double-symbol-decodable unitary DSTM; 5.2.3.1 STBC Unitary DSTM Based on Double-Symbol-Decodable QO-; 5.2.3.2 Design of constellation set; 5.2.4 Performance comparison; 5.2.5 Section summary
5.3 Quasi-Unitary DSTM Based on MDC-QOSTBC
Record Nr. UNINA-9910451184703321
Yuen Chau  
London ; ; Imperial College Press ; ; Hackensack, NJ, : Distributed by World Scientific, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Quasi-orthogonal space-time block code [[electronic resource] /] / Chau Yuen, Yong Liang Guan, Tjeng Thiang Tjhung
Quasi-orthogonal space-time block code [[electronic resource] /] / Chau Yuen, Yong Liang Guan, Tjeng Thiang Tjhung
Autore Yuen Chau
Pubbl/distr/stampa London ; ; Imperial College Press ; ; Hackensack, NJ, : Distributed by World Scientific, c2007
Descrizione fisica 1 online resource (208 p.)
Disciplina 621.3822
Altri autori (Persone) GuanYong Liang
TjhungTjeng Thiang
Collana Communications and signal processing
Soggetto topico Space time codes
MIMO systems
ISBN 1-281-86764-0
9786611867645
1-86094-869-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Contents; Foreword; 1 . Introduction of MIMO Channel and Space-Time Block Code; 1.1 MIMO Channel for Wireless Communications; 1.2 Transmit Diversity with Space-Time Block Code; 1.3 Notations and Abbreviations; 1.4 Signal Model of MIMO Channel and STBC; 1.4.1 Signal model of MIMO channel; 1.4.2 Signal model of STBC; 1.5 Design Criteria and Performance Measure of STBC; 2 . Orthogonal and Quasi-Orthogonal Space-Time Block Code; 2.1 Orthogonal Space-Time Block Code; 2.1.1 Benefits of 0-STBC; 2.1.2 Background of amicable orthogonal design; 2.1.3 Construction of 0-STBC and its rate limitation
2.2 Quasi-Orthogonal Space-Time Block Code2.2.1 Approaching capacity with low decoding complexity; 2.2.2 Performance optimization of QO-STBC; 2.2.2.1 Full-diversity QO-STBC with constellation rotation; 2.2.2.2 Full-diversity QO-STBC without constellation rotation; 2.2.3 Remark; 3 . Insights of QO-STBC; 3.1 Algebraic Structure of QO-STBC; 3.1.1 Decoding complexity of a QO-STBC; 3.1.2 Maximal symbol-wise diversity of a QO-STBC; 3.2 Generalized Decoding Framework of QO-STBC; 3.3 Impact of Constellation Rotation on the Decoding Complexity of QO-STBC
3.3.1 Simplified QO-STBC model with real symbols only3.3.2 Decoding complexity of QO-STBC with CR; 3.4 Group-Constrained Linear Transformation; 3.4.1 Definition of GCLT; 3.4.2 Optimization of GCLT parameters; 3.4.2.1 GCLT of J4; 3.4.2.2 GCLT of J8; 3.4.2.3 GCLTof TBH8; 3.4.3 Performance comparison; 3.4.3.1 ML decoding complexity; 3.4.3.2 Decoding performance; 3.5 Chapter Summary; 4 . Quasi-Orthogonal Space-Time Block Code with Minimum Decoding Complexity; 4.1 Algebraic Structure of MDC-QOSTBC; 4.2 Square MDC-QOSTBC Design; 4.2.1 Definition of preferred AOD pair
4.2.2 Relationship between MDC-QOSTBC and AOD through preferred AOD pair4.2.3 Lower bound on the code rate for square design; 4.2.4 Construction of preferred AOD pair; 4.2.4.1 Quaternion; 4.2.4.2 Systematic construction of preferred AOD pair; 4.2.4.3 Examples of MDC-QOSTBC constructed)om preferred AOD pair; 4.3 Construction of MDC-QOSTBC from 0-STBC; 4.3.1 Construction method; 4.3.2 Performance optimization; 4.3.2.1 Diversity product of MDC-QOSTBC; 4.3.2.2 Optimum CR angle for square- and rectangular-QAM; 4.3.2.3 Optimum CR angle for PSK; 4.3.3 Non-square MDC-QOSTBC design
4.3.3.1 MDC-QOSTBC for odd number of transmit antennas4.3.3.2 Maximum code rate of square MDC-QOSTBC; 4.3.3.3 Maximum code rate of non-square MDC-QOSTBC; 4.4 Performance Results; 4.5 Chapter Summary; 5 . Differential QO-STBC; 5.1 DSTM Codeword Model and Design Criteria; 5.2 Unitary DSTM Based on QO-STBC; 5.2.1 Literature review; 5.2.2 Signal model of unitary DSTM scheme; 5.2.3 Double-symbol-decodable unitary DSTM; 5.2.3.1 STBC Unitary DSTM Based on Double-Symbol-Decodable QO-; 5.2.3.2 Design of constellation set; 5.2.4 Performance comparison; 5.2.5 Section summary
5.3 Quasi-Unitary DSTM Based on MDC-QOSTBC
Record Nr. UNINA-9910784708903321
Yuen Chau  
London ; ; Imperial College Press ; ; Hackensack, NJ, : Distributed by World Scientific, c2007
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Space-time codes and MIMO systems / / Mohinder Jankiraman
Space-time codes and MIMO systems / / Mohinder Jankiraman
Autore Jankiraman Mohinder
Pubbl/distr/stampa Boston : , : Artech House, , ©2004
Descrizione fisica 1 online resource (343 p.)
Disciplina 621.382
Collana Artech House universal personal communications series
Soggetto topico Space time codes
MIMO systems
Wireless communication systems
Antenna arrays
Soggetto genere / forma Electronic books.
ISBN 9781580538665
1-58053-866-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Introduction -- The MIMO wireless channel -- Channel propagation, fading, and link budget analysis -- Space-time block coding -- Space-time trellis codes -- Layered space-time codes -- Orthogonal frequency division multiplexing -- IEEE 802.11a packet transmission system -- Space-time coding for broadband channel -- The way ahead.
Record Nr. UNINA-9910449736103321
Jankiraman Mohinder  
Boston : , : Artech House, , ©2004
Materiale a stampa
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Space-time codes and MIMO systems / / Mohinder Jankiraman
Space-time codes and MIMO systems / / Mohinder Jankiraman
Autore Jankiraman Mohinder
Pubbl/distr/stampa Boston : , : Artech House, , ©2004
Descrizione fisica 1 online resource (343 p.)
Disciplina 621.382
Collana Artech House universal personal communications series
Soggetto topico Space time codes
MIMO systems
Wireless communication systems
Antenna arrays
ISBN 9781580538665
1-58053-866-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Introduction -- The MIMO wireless channel -- Channel propagation, fading, and link budget analysis -- Space-time block coding -- Space-time trellis codes -- Layered space-time codes -- Orthogonal frequency division multiplexing -- IEEE 802.11a packet transmission system -- Space-time coding for broadband channel -- The way ahead.
Record Nr. UNINA-9910783460903321
Jankiraman Mohinder  
Boston : , : Artech House, , ©2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Space-time layered information processing for wireless communications / / Mathini Sellathurai, Simon Haykin
Space-time layered information processing for wireless communications / / Mathini Sellathurai, Simon Haykin
Autore Sellathurai Mathini <1968->
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley : , c2009
Descrizione fisica 1 online resource (220 p.)
Disciplina 621.3840285/572
621.3840285572
Altri autori (Persone) HaykinSimon S. <1931->
Collana Adaptive and Learning Systems for Signal Processing, Communications and Control Series
Soggetto topico Space time codes
MIMO systems
ISBN 1-282-25935-0
9786612259357
0-470-44363-4
0-470-44362-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto List of Tables. -- List of Figures. -- 1 Introduction. -- 1.1 Brief Historical Notes. -- 1.2 Turbo-Information Processing. -- 1.3 MIMO Wireless Communications. -- 1.4 Organization of the Book. -- 2 MIMO Channel Capacity. -- 2.1 Introduction. -- 2.2 Multiple-Input, Multiple-Output Antenna Systems. -- 2.3 Channel Capacity. -- -- 2.4 MIMO Capacity for a Channel Known at the Receiver. -- -- 2.5 Channel Known at the Transmitter. -- -- 2.6 Summary and Discussion. -- 3 BLAST Architectures. -- 3.1 BLAST Architecture. -- 3.2 Diagonal BLAST. -- 3.3 Vertical BLAST (V-BLAST). -- -- 3.4 Stratified Diagonal BLAST (SD-BLAST). -- -- 3.5 Simulations on BLAST for the Matrix Rayleigh Channel. -- 3.6 Multirate Layered Space-Time Architecture. -- 3.7 Outage Capacity. -- -- 3.8 Simulation Results. -- 3.9 Summary and Discussion. -- 4 Space-Time Turbo Codes and Turbo Decoding Principles. -- 4.1 Introduction. -- 4.2 Turbo Codes. -- 4.3 Interleaver Designs for Turbo Codes. -- -- 4.4 Space-Time Turbo Codes. -- 4.4.1 Example Space-Time Turbo Codes. -- 4.5 Multirate Layered Space-Time (MLST) Turbo Codes. -- 4.6 Summary and Discussion. -- 5 Turbo-BLAST. -- 5.1 Introduction. -- 5.2 T-BLAST: Basic Transmitter Considerations. -- 5.3 Optimal Detection. -- 5.4 Distance Spectrum of RLST Codes. -- 5.5 Iterative Decoding: Basic Considerations. -- 5.6 Design and Performance of SISO Detectors. -- -- 5.7 Simulations on T-BLAST. -- 5.8 Summary and Discussion. -- 5.9 Appendix. -- 6 Turbo-MIMO Systems. -- 6.1 Bit-Interleaved Coded Modulation. -- 6.2 Turbo-MIMO Theory and ST-BICM. -- 6.3 ST-BICM. -- 6.4 Iterative Detection and Decoding. -- 6.5 Suboptimal MIMO Detection. -- 6.6 Simulation for Narrowband Turbo-MIMO. -- 6.7 Wideband Turbo-MIMO (ST-BICM). -- 6.8 Summary. -- Appendix 6.1. -- Appendix 6.2. -- Bibliography. -- Index.
Record Nr. UNINA-9910139913103321
Sellathurai Mathini <1968->  
Hoboken, New Jersey : , : Wiley : , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Space-time layered information processing for wireless communications / / Mathini Sellathurai, Simon Haykin
Space-time layered information processing for wireless communications / / Mathini Sellathurai, Simon Haykin
Autore Sellathurai Mathini <1968->
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley : , c2009
Descrizione fisica 1 online resource (220 p.)
Disciplina 621.3840285/572
621.3840285572
Altri autori (Persone) HaykinSimon S. <1931->
Collana Adaptive and Learning Systems for Signal Processing, Communications and Control Series
Soggetto topico Space time codes
MIMO systems
ISBN 1-282-25935-0
9786612259357
0-470-44363-4
0-470-44362-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto List of Tables. -- List of Figures. -- 1 Introduction. -- 1.1 Brief Historical Notes. -- 1.2 Turbo-Information Processing. -- 1.3 MIMO Wireless Communications. -- 1.4 Organization of the Book. -- 2 MIMO Channel Capacity. -- 2.1 Introduction. -- 2.2 Multiple-Input, Multiple-Output Antenna Systems. -- 2.3 Channel Capacity. -- -- 2.4 MIMO Capacity for a Channel Known at the Receiver. -- -- 2.5 Channel Known at the Transmitter. -- -- 2.6 Summary and Discussion. -- 3 BLAST Architectures. -- 3.1 BLAST Architecture. -- 3.2 Diagonal BLAST. -- 3.3 Vertical BLAST (V-BLAST). -- -- 3.4 Stratified Diagonal BLAST (SD-BLAST). -- -- 3.5 Simulations on BLAST for the Matrix Rayleigh Channel. -- 3.6 Multirate Layered Space-Time Architecture. -- 3.7 Outage Capacity. -- -- 3.8 Simulation Results. -- 3.9 Summary and Discussion. -- 4 Space-Time Turbo Codes and Turbo Decoding Principles. -- 4.1 Introduction. -- 4.2 Turbo Codes. -- 4.3 Interleaver Designs for Turbo Codes. -- -- 4.4 Space-Time Turbo Codes. -- 4.4.1 Example Space-Time Turbo Codes. -- 4.5 Multirate Layered Space-Time (MLST) Turbo Codes. -- 4.6 Summary and Discussion. -- 5 Turbo-BLAST. -- 5.1 Introduction. -- 5.2 T-BLAST: Basic Transmitter Considerations. -- 5.3 Optimal Detection. -- 5.4 Distance Spectrum of RLST Codes. -- 5.5 Iterative Decoding: Basic Considerations. -- 5.6 Design and Performance of SISO Detectors. -- -- 5.7 Simulations on T-BLAST. -- 5.8 Summary and Discussion. -- 5.9 Appendix. -- 6 Turbo-MIMO Systems. -- 6.1 Bit-Interleaved Coded Modulation. -- 6.2 Turbo-MIMO Theory and ST-BICM. -- 6.3 ST-BICM. -- 6.4 Iterative Detection and Decoding. -- 6.5 Suboptimal MIMO Detection. -- 6.6 Simulation for Narrowband Turbo-MIMO. -- 6.7 Wideband Turbo-MIMO (ST-BICM). -- 6.8 Summary. -- Appendix 6.1. -- Appendix 6.2. -- Bibliography. -- Index.
Record Nr. UNINA-9910829976503321
Sellathurai Mathini <1968->  
Hoboken, New Jersey : , : Wiley : , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Space-time layered information processing for wireless communications / / Mathini Sellathurai, Simon Haykin
Space-time layered information processing for wireless communications / / Mathini Sellathurai, Simon Haykin
Autore Sellathurai Mathini <1968->
Pubbl/distr/stampa Hoboken, NJ, : Wiley, c2009
Descrizione fisica 1 online resource (220 p.)
Disciplina 621.3840285/572
621.3840285572
Altri autori (Persone) HaykinSimon S. <1931->
Collana Adaptive and Learning Systems for Signal Processing, Communications and Control Series
Soggetto topico Space time codes
MIMO systems
ISBN 9786612259357
9781282259355
1282259350
9780470443637
0470443634
9780470443620
0470443626
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto List of Tables. -- List of Figures. -- 1 Introduction. -- 1.1 Brief Historical Notes. -- 1.2 Turbo-Information Processing. -- 1.3 MIMO Wireless Communications. -- 1.4 Organization of the Book. -- 2 MIMO Channel Capacity. -- 2.1 Introduction. -- 2.2 Multiple-Input, Multiple-Output Antenna Systems. -- 2.3 Channel Capacity. -- -- 2.4 MIMO Capacity for a Channel Known at the Receiver. -- -- 2.5 Channel Known at the Transmitter. -- -- 2.6 Summary and Discussion. -- 3 BLAST Architectures. -- 3.1 BLAST Architecture. -- 3.2 Diagonal BLAST. -- 3.3 Vertical BLAST (V-BLAST). -- -- 3.4 Stratified Diagonal BLAST (SD-BLAST). -- -- 3.5 Simulations on BLAST for the Matrix Rayleigh Channel. -- 3.6 Multirate Layered Space-Time Architecture. -- 3.7 Outage Capacity. -- -- 3.8 Simulation Results. -- 3.9 Summary and Discussion. -- 4 Space-Time Turbo Codes and Turbo Decoding Principles. -- 4.1 Introduction. -- 4.2 Turbo Codes. -- 4.3 Interleaver Designs for Turbo Codes. -- -- 4.4 Space-Time Turbo Codes. -- 4.4.1 Example Space-Time Turbo Codes. -- 4.5 Multirate Layered Space-Time (MLST) Turbo Codes. -- 4.6 Summary and Discussion. -- 5 Turbo-BLAST. -- 5.1 Introduction. -- 5.2 T-BLAST: Basic Transmitter Considerations. -- 5.3 Optimal Detection. -- 5.4 Distance Spectrum of RLST Codes. -- 5.5 Iterative Decoding: Basic Considerations. -- 5.6 Design and Performance of SISO Detectors. -- -- 5.7 Simulations on T-BLAST. -- 5.8 Summary and Discussion. -- 5.9 Appendix. -- 6 Turbo-MIMO Systems. -- 6.1 Bit-Interleaved Coded Modulation. -- 6.2 Turbo-MIMO Theory and ST-BICM. -- 6.3 ST-BICM. -- 6.4 Iterative Detection and Decoding. -- 6.5 Suboptimal MIMO Detection. -- 6.6 Simulation for Narrowband Turbo-MIMO. -- 6.7 Wideband Turbo-MIMO (ST-BICM). -- 6.8 Summary. -- Appendix 6.1. -- Appendix 6.2. -- Bibliography. -- Index.
Record Nr. UNINA-9911018825803321
Sellathurai Mathini <1968->  
Hoboken, NJ, : Wiley, c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Space-time processing for MIMO communications [[electronic resource] /] / edited by A.B. Gershman, N.D. Sidiropoulos
Space-time processing for MIMO communications [[electronic resource] /] / edited by A.B. Gershman, N.D. Sidiropoulos
Pubbl/distr/stampa Chichester, : John Wiley, c2005
Descrizione fisica 1 online resource (389 p.)
Disciplina 621.382
Altri autori (Persone) GershmanAlex B
SidiropoulosN. D (Nikos D.)
Soggetto topico MIMO systems
Space time codes
Soggetto genere / forma Electronic books.
ISBN 1-280-27622-3
9786610276226
0-470-01004-5
0-470-01003-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Space-Time Processing for MIMO Communications; Contents; List of Contributors; Preface; Acknowledgements; 1 MIMO Wireless Channel Modeling and Experimental Characterization; 1.1 Introduction; 1.1.1 MIMO system model; 1.1.2 Channel normalization; 1.2 MIMO ChannelMeasurement; 1.2.1 Measurement system; 1.2.2 Channel matrix characteristics; 1.2.3 Multipath estimation; 1.3 MIMO ChannelModels; 1.3.1 Random matrix models; 1.3.2 Geometric discrete scattering models; 1.3.3 Statistical cluster models; 1.3.4 Deterministic ray tracing; 1.4 The Impact of Antennas onMIMO Performance
1.4.1 Spatial diversity1.4.2 Pattern (angle and polarization) diversity; 1.4.3 Mutual coupling and receiver network modeling; References; 2 Multidimensional Harmonic Retrieval with Applications in MIMO Wireless Channel Sounding; 2.1 Introduction; 2.2 Harmonic Retrieval DataModel; 2.2.1 2-D harmonic retrieval model; 2.2.2 N-D harmonic retrieval model; 2.2.3 Khatri-Rao product of Vandermonde matrices; 2.3 Identi.ability of Multidimensional Harmonic Retrieval; 2.3.1 Deterministic ID of N-D harmonic retrieval; 2.3.2 Stochastic ID of 2-D harmonic retrieval
2.3.3 Stochastic ID of N-D harmonic retrieval2.4 Multidimensional Harmonic Retrieval Algorithms; 2.4.1 2-DMDF; 2.4.2 N-DMDF; 2.4.3 N-D unitary ESPRIT; 2.4.4 N-DMUSIC; 2.4.5 N-D RARE; 2.4.6 Summary; 2.5 Numerical Examples; 2.5.1 2-D harmonic retrieval (simulated data); 2.5.2 3-D harmonic retrieval (simulated data); 2.6 Multidimensional Harmonic Retrieval for MIMO Channel Estimation; 2.6.1 Parametric channel modeling; 2.6.2 MIMO channel sounding; 2.6.3 Examples of 3-D MDF applied to measurement data; 2.7 Concluding Remarks; References
3 Certain Computations Involving Complex Gaussian Matrices with Applications to the Performance Analysis of MIMO Systems3.1 Introduction; 3.2 Performance Measures of Multiple Antenna Systems; 3.2.1 Noise-limitedMIMO fading channels; 3.2.2 MIMO channels in the presence of cochannel interference; 3.2.3 MIMO beamforming; 3.3 SomeMathematical Preliminaries; 3.4 General Calculations with MIMO Applications; 3.4.1 Main result; 3.4.2 Application to noise-limited MIMO systems; 3.4.3 Applications to MIMO channels in the presence of interference; 3.5 Summary; References
4 Recent Advances in Orthogonal Space-Time Block Coding4.1 Introduction; 4.2 Notations and Acronyms; 4.3 Mathematical Preliminaries; 4.4 MIMO System Model and OSTBC Background; 4.5 Constellation Space Invariance and Equivalent Array-Processing-Type MIMOModel; 4.6 CoherentML Decoding; 4.7 Exact Symbol Error Probability Analysis of Coherent ML Decoder; 4.7.1 Probability of error for a separable input constellation; 4.7.2 Probability of error for a nonseparable input constellation; 4.8 Optimality Properties of OSTBCs
4.8.1 Suf.cient conditions for optimal space-time codes with dimensionconstrained constellations
Record Nr. UNINA-9910143682403321
Chichester, : John Wiley, c2005
Materiale a stampa
Lo trovi qui: Univ. Federico II
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