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دانلود کتاب Receiver Design for High Spectral Efficiency Communication Systems in Beyond 5G
دانلود کتاب طراحی گیرنده برای سیستم های ارتباطی با راندمان طیفی بالا در فراتر از 5G
مشخصات کتاب
Receiver Design for High Spectral Efficiency Communication Systems in Beyond 5G
ویرایش: نویسندگان: Weijie Yuan, Nan Wu, Jingming Kuang سری: ISBN (شابک) : 9811980896, 9789811980893 ناشر: Springer سال نشر: 2023 تعداد صفحات: 156 [157] زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 3 Mb
قیمت کتاب (تومان) : 34,000
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توجه داشته باشید کتاب طراحی گیرنده برای سیستم های ارتباطی با راندمان طیفی بالا در فراتر از 5G نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی در مورد کتاب طراحی گیرنده برای سیستم های ارتباطی با راندمان طیفی بالا در فراتر از 5G
توضیحاتی درمورد کتاب به خارجی
This book focuses on the receiver design issue in high spectral efficiency communication systems, which is one of the main research directions in beyond 5G and 6G era. In particular, this book studies two technologies to improve the spectral efficiency, i.e., FTN signaling which transmits more data information in the same time period and NOMA scheme which supports more users with the same resource elements. Different commonly used channel propagation conditions are considered, and advanced signal processing algorithms have been developed for designing receivers, which is suitable for low-complexity receiver design in engineering practice. Moreover, this book discusses possible solutions to further increase spectral efficiency and propose practical receivers in such scenarios. It benefits researchers, engineers, and students in the fields of wireless communications and signal processing.
فهرست مطالب
Foreword Preface Contents Acronyms Notations 1 Introduction of High Spectral Efficiency Communication Systems 1.1 Background 1.2 Faster-Than-Nyquist Signaling 1.3 Sparse Code Multiple Access 1.4 The Objectives 2 Uplink Multi-user Detection for SCMA System 2.1 Introduction 2.2 System Model 2.3 Low-Complexity Receiver Design 2.3.1 Bayesian Inference-Based Approach 2.3.2 Computational Complexity 2.4 Convergence Analysis 2.5 Simulation Results 2.6 Conclusions 3 Downlink Multi-user Detection for MIMO-SCMA System 3.1 Introduction 3.2 MIMO-SCMA Model 3.2.1 Probabilistic Model 3.3 Stretched Factor Graph and Low-Complexity Message Passing Receiver 3.3.1 Factor Graph Representation 3.3.2 Message Passing on Stretched Factor Graph 3.3.3 Algorithm Summary 3.4 Convergence-Guaranteed Message Passing Receiver 3.4.1 VFE and Belief Propagation 3.4.2 Convergence-Guaranteed BP-EP Receiver 3.4.3 Complexity Analysis 3.5 Distributed Cooperative Detection 3.5.1 Belief Consensus-Based Method 3.5.2 Bregman ADMM-Based Method 3.5.3 Algorithm Summary 3.6 Simulation Results 3.7 Conclusions 4 FTN Data Detection and Channel Estimation over Frequency Selective Channels 4.1 Introduction 4.2 FTN Signaling Model 4.3 Low-Complexity Message Passing Receiver Design 4.3.1 Forney-Style Factor Graph Representation 4.3.2 Gaussian Message Passing Algorithm 4.3.3 Computation of Extrinsic LLR 4.3.4 Complexity Analysis 4.4 Simulation Results 4.5 Conclusions 5 Receiver Design for FTN Signaling over Doubly Selective Channels 5.1 Introduction 5.2 System Model 5.2.1 FDE-MMSE Based Algorithm 5.3 VFE-Based Receiver Design 5.3.1 VFE-Based Method 5.3.2 Complexity Reduction 5.3.3 Simulation Results 5.4 GMP-Based Receiver Design 5.4.1 GMP-Based Method 5.4.2 Imperfect Channel Information 5.4.3 Simulation Results 5.5 Conclusions 6 Receiver Design for FTN-SCMA Communication System 6.1 Introduction 6.2 System Model 6.3 Receiver Design for FTN-SCMA Systems 6.3.1 Approximation of Colored Noise 6.3.2 Probabilistic Model and Factor Graph Representation 6.3.3 Message Passing Receiver Design 6.4 User Activity Detection in Grant-Free System 6.4.1 Probability-Based Active User Detection 6.4.2 Message Passing Based Active User Detection Algorithm 6.5 Simulation Results 6.6 Conclusions 7 Receiver Design for FTN-NOMA System with Random Access 7.1 System Model 7.1.1 Faster Than Nyquist Signaling 7.1.2 Non-orthogonal Multiple Access 7.1.3 FTN-NOMA System with Random Access 7.2 Factor Graph Representation of FTN-NOMA System 7.2.1 Probabilistic Model 7.2.2 Factor Graph Representation 7.3 EM-MPA Receiver for FTN-NOMA System 7.3.1 Multiuser Detection and Decoding Part 7.3.2 Summary of the Proposed Receiver 7.4 Simulation Results 7.5 Conclusions 8 Current Achievements and The Road Ahead 8.1 Summary of This Book 8.2 The Road Ahead 8.2.1 Receiver Design for FTN Signaling in Nonlinear Channels 8.2.2 Receiver Design for Orthogonal Time Frequency Space (OTFS) Modulation 8.2.3 Receiver Design for Integrated Sensing and Communication (ISAC) System Appendix References
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