Details

Design and Optimization for 5G Wireless Communications


Design and Optimization for 5G Wireless Communications


1. Aufl.

von: Haesik Kim

106,99 €

Verlag: Wiley
Format: PDF
Veröffentl.: 19.03.2020
ISBN/EAN: 9781119494447
Sprache: englisch
Anzahl Seiten: 424

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Beschreibungen

This book offers a technical background to the design and optimization of wireless communication systems, covering optimization algorithms for wireless and 5G communication systems design. The book introduces the design and optimization systems which target capacity, latency, and connection density; including Enhanced Mobile Broadband Communication (eMBB), Ultra-Reliable and Low Latency Communication (URLL), and Massive Machine Type Communication (mMTC). The book is organized into two distinct parts: Part I, mathematical methods and optimization algorithms for wireless communications are introduced, providing the reader with the required mathematical background. In Part II, 5G communication systems are designed and optimized using the mathematical methods and optimization algorithms.
Preface List of Abbreviations Part I. Mathematic Methods and Optimization Theories for Wireless Communications 1 Historical Sketch of Cellular Communications and Networks 1.1 Evolution of Cellular Communications and Networks 10 1.2 Evoluation to 5G Networks 10 1.3 References 10 2 5G Wireless Communication System Parameters and Requirements 10 2.1 5G Requirements 10 2.2 Trade-off of 5G System Metrics Density 10 2.3 Problems 10 2.4 References 10 3 Mathematical Methods for Wireless Communications 10 3.1 Signal Spaces 10 3.2 Approximation and Estimation in Signal Spaces 10 3.2.1 Approximation Problems 10 3.2.2 Lest Squares Estimation 10 3.2.3 Minimum Mean Squared Error Estimation 10 3.2.4 ML and MAP Estimation 10 3.3 Matrix Factorization 10 3.3.1 LU Decomposition 10 3.3.2 Cholesky Decomposition 10 3.3.3 QR Decomposition 10 3.3.4 SVD Decomposition 10 3.4 Problems 10 3.5 References 10 4 Mathematical Optimization Techniques for Wireless Communications 10 4.1 Mathematical Modelling and Optimiation Process 10 4.2 Linear Programming 10 4.3 Convex Optimization 10 4.3.1 Barrier Method 10 4.3.2 Primal-Dual Interiro Point Method 10 4.4 Gradient Descent Method 10 4.5 Problems 10 4.6 References 10 5 Machine Learning 10 5.1 Artificial Intelligence, Machine Learning and Deep Learning 10 5.2 Supervised and Unsupervised Learning 10 5.3 Reinforcement Learning 10 5.4 Problems 10 5.5 References 10 Part II. Design and Optimization for 5G Wireless Communications and Networks 1 6 Design Principles for 5G Communications and Networks 10 6.1 New Design Approaches and Key Challenges of 5G Communications and Networks 10 6.2 5G New Radio 10 6.3 5G Key Enabling Techniques 10 6.4 Problems 10 6.5 References 10 7 Enhanced Mobile Broadband Communication Systems 10 7.1 Design Approaches of eMBB Systems 10 7.2 MIMO 10 7.2.1 Capacity of MIMO Channel 10 7.2.2 Space Time Coding Design 10 7.2.3 Spatial Multiplexing Design 10 7.2.4 Massive MIMO 10 7.3 5G Multiple Access Techniques 10 7.3.1 OFDM System Design 10 7.3.2 FBMC, GFDM and UFMC 10 7.4 5G Channel Coding and Modulation 10 7.4.1 LDPC Codes 10 7.4.2 Coding and Modulation for High Spectral Efficiency 10 7.5 Problems 10 7.6 References 10 8 Ultra-Reliable and Low Latency Communication Systems 10 8.1 Design Approaches of URLLC Systems 10 8.2 Short Packet Transmission 10 8.3 Latency Analysis 10 8.4 Multiple Access Edge Computing 10 8.5 Problems 10 8.6 References 10 9 Massive Machine Type Communication Systems 10 9.1 Design Approaches of mMTC Systems 10 9.2 Robust Optimization 10 9.3 Power Control and Management 10 9.4 Wireless Sensor Networks 10 9.5 Problems 10 9.6 References 10 Index 10
Haesik Kim, VTT Technical Research Centre of Finland, Oulu, FinlandDr. Haesik Kim (IEEE Senior Member) is Senior Scientist at the Radio Systems team in VTT Technical Research Centre of Finland. He received the M.Sc and Ph.D. degree from Korea Advanced Institute of Science and Technology (KAIST) South Korea, in 2000 and Lancaster University UK, in 2009, respectively. From 2002 to 2006, he was with Samsung Advanced Institute of Technology (SAIT) where he focused on physical layer system design and standardization in SDR and UWB project. From 2008 to 2009, he was with NEC UK where he was involved in WiMAX system design and standardization. He joined VTT Technical Research Centre of Finland in 2010 and is currently focusing on 5G communication systems design.

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