000 06912cam a22005778i 4500
001 on1150800913
003 OCoLC
005 20220711203158.0
006 m o d
007 cr |||||||||||
008 200121s2020 nju ob 001 0 eng
010 _a 2020000672
040 _aDLC
_beng
_erda
_cDLC
_dDG1
_dOCLCF
_dSTF
_dSFB
019 _a1157086738
020 _a9781119494492
_q(electronic bk. : oBook)
020 _a1119494494
_q(electronic bk. : oBook)
020 _a9781119494522
_q(epub)
020 _a1119494524
_q(epub)
020 _a9781119494447
_q(adobe pdf)
020 _a1119494443
_q(adobe pdf)
020 _z9781119494553
_q(hardback)
020 _z1119494559
_qhardback
024 7 _a10.1002/9781119494492
_2doi
035 _a(OCoLC)1150800913
_z(OCoLC)1157086738
042 _apcc
050 0 0 _aTK5103.25
082 0 0 _a621.3845/6
_223
049 _aMAIN
100 1 _aKim, Haesik,
_eauthor.
_94975
245 1 0 _aDesign and optimization for 5G wireless communications /
_cHaesik Kim.
263 _a2009
264 1 _aHoboken, NJ, USA :
_bWiley-IEEE Press,
_c2020.
300 _a1 online resource
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bn
_2rdamedia
338 _aonline resource
_bnc
_2rdacarrier
504 _aIncludes bibliographical references and index.
520 _a"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"--
_cProvided by publisher.
588 _aDescription based on print version record and CIP data provided by publisher; resource not viewed.
505 0 _aPreface xi -- List of Abbreviations xiii -- Part I Mathematical Methods and Optimization Theories for Wireless Communications 1 -- 1 Historical Sketch of Cellular Communications and Networks 3 -- 1.1 Evolution of Cellular Communications and Networks 3 -- 1.2 Evolution to 5G Networks 9 -- References 11 -- 2 5G Wireless Communication System Parameters and Requirements 13 -- 2.1 5G Requirements 13 -- 2.2 Trade-off of 5G System Metrics 16 -- Problems 19 -- References 20 -- 3 Mathematical Methods for Wireless Communications 21 -- 3.1 Signal Spaces 21 -- 3.2 Approximation and Estimation in Signal Spaces 32 -- 3.2.1 Approximation Problems 32 -- 3.2.2 Least Squares Estimation 35 -- 3.2.3 Minimum Mean-Squared Error Estimation 45 -- 3.2.4 Maximum Likelihood and Maximum A Posteriori Estimation 65 -- 3.3 Matrix Factorization 71 -- 3.3.1 LU Decomposition 71 -- 3.3.2 Cholesky Decomposition 76 -- 3.3.3 QR Decomposition 77 -- 3.3.4 SVD Decomposition 85 -- Problems 92 -- References 95 -- 4 Mathematical Optimization Techniques for Wireless Communications 97 -- 4.1 Introduction 97 -- 4.2 Mathematical Modeling and Optimization Process 99 -- 4.3 Linear Programming 108 -- 4.4 Convex Optimization 120 -- 4.4.1 Barrier Method 124 -- 4.4.2 Primal-Dual Interior Point Method 130 -- 4.5 Gradient Descent Method 138 -- Problems 146 -- References 149 -- 5 Machine Learning 151 -- 5.1 Artificial Intelligence, Machine Learning, and Deep Learning 152 -- 5.2 Supervised and Unsupervised Learning 153 -- 5.3 Reinforcement Learning 177 -- Problems 191 -- References 193 -- Part II Design and Optimization for 5G Wireless Communications and Networks 195 -- 6 Design Principles for 5G Communications and Networks 197 -- 6.1 New Design Approaches and Key Challenges of 5G Communications and Networks 198 -- 6.1.1 5G Frequency Bands 198 -- 6.1.2 Low Latency 199 -- 6.1.3 More Efficient Radio Resource Utilization 201 -- 6.1.4 Small Cells and Ultra-Dense Networks 202 -- 6.1.5 Higher Flexibility 202 -- 6.1.6 Virtualization 203.
505 8 _a6.1.7 Distributed Network Architecture 204 -- 6.1.8 Device-Centric Communications 205 -- 6.1.9 New Air Interfaces 206 -- 6.1.10 Big Data Management 206 -- 6.2 5G New Radio 207 -- 6.2.1 5G Radio Access Network Architecture 207 -- 6.2.2 5G NR Deployment Scenarios 208 -- 6.2.3 Frame Structure 209 -- 6.2.4 5G Logical, Transport, and Physical Channels 213 -- 6.2.5 5G Protocol Layers 217 -- 6.2.6 5G NR Physical Layer Processing 220 -- 6.2.7 5G Initial Access Procedure and Beam Management 222 -- 6.3 5G Key Enabling Techniques 226 -- 6.3.1 5GWaveforms 226 -- 6.3.2 5G Multiple Access Schemes 227 -- 6.3.3 Channel Coding Schemes 228 -- 6.3.4 MIMO 230 -- 6.3.5 mmWAVE 231 -- 6.3.6 Network Slicing 232 -- 6.3.7 Multi-access Edge Computing 232 -- Problems 235 -- References 237 -- 7 Enhanced Mobile Broadband Communication Systems 239 -- 7.1 Introduction 239 -- 7.2 Design Approaches of eMBB Systems 240 -- 7.3 MIMO 242 -- 7.3.1 Capacity of MIMO Channel 243 -- 7.3.2 Space-Time Coding Design 251 -- 7.3.3 Spatial Multiplexing Design 262 -- 7.3.4 Massive MIMO 268 -- 7.4 5G Multiple Access Techniques 271 -- 7.4.1 OFDM System Design 271 -- 7.4.2 FBMC, GFDM, and UFMC 280 -- 7.5 5G Channel Coding and Modulation 284 -- 7.5.1 LDPC Codes 285 -- 7.5.2 Coding and Modulation for High Spectral Efficiency 291 -- Problems 299 -- References 300 -- 8 Ultra-Reliable and Low Latency Communication Systems 303 -- 8.1 Design Approaches of URLLC Systems 304 -- 8.2 Short Packet Transmission 306 -- 8.3 Latency Analysis 317 -- 8.4 Multi-Access Edge Computing 328 -- Problems 339 -- References 340 -- 9 Massive Machine Type Communication Systems 343 -- 9.1 Introduction 343 -- 9.2 Design Approaches of mMTC Systems 344 -- 9.3 Robust Optimization 351 -- 9.4 Power Control and Management 362 -- 9.4.1 Linear Programming for Power Control in Distributed Networks 363 -- 9.4.2 Power Control Problem Formulations 366 -- 9.4.3 Beamforming for Transmit Power Minimization 370 -- 9.5 Wireless Sensor Networks 376 -- Problems 392.
650 0 _a5G mobile communication systems
_xDesign and construction
_xMathematics.
_94976
650 0 _aMathematical optimization.
_94112
650 7 _aMathematical optimization.
_2fast
_0(OCoLC)fst01012099
_94112
655 4 _aElectronic books.
_93294
655 0 _aElectronic books.
_93294
776 0 8 _iPrint version:
_aKim, Haesik.
_tDesign and optimization for 5G wireless communications
_dHoboken, NJ, USA : Wiley-IEEE Press, 2020.
_z9781119494553
_w(DLC) 2020000671
856 4 0 _uhttps://doi.org/10.1002/9781119494492
_zWiley Online Library
942 _cEBK
994 _a92
_bDG1
999 _c68391
_d68391