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Advanced wireless communications & Internet : future evolving technologies / / Savo G. Glisic
| Advanced wireless communications & Internet : future evolving technologies / / Savo G. Glisic |
| Autore | Glisic Savo G. |
| Edizione | [3rd ed.] |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. ; , : Wiley, , 2011 |
| Descrizione fisica | 1 online resource (951 p.) |
| Disciplina | 621.384 |
| Soggetto topico |
Wireless communication systems - Technological innovations
Internet |
| ISBN |
1-119-99175-7
1-283-17791-9 9786613177919 1-119-99163-3 1-119-99162-5 |
| Classificazione | TEC041000 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- Preface to the Third Edition xix -- 1 Fundamentals 1 -- 1.1 4G and the Book Layout 1 -- 1.2 General Structure of 4G Signals 5 -- 1.3 Next Generation Internet 16 -- 1.4 Cloud Computing and Network Virtualization 18 -- 1.5 Economics of Utility Computing 20 -- 1.6 Drawbacks of Cloud Computing 22 -- 1.7 Wireless Grids and Clouds 24 -- References 30 -- 2 Adaptive Coding 35 -- 2.1 Adaptive and Reconfigurable Block Coding 35 -- 2.2 Adaptive and Reconfigurable Convolutional Codes 40 -- 2.3 Concatenated Codes with Interleavers 51 -- 2.4 Adaptive Coding, Practice and Prospects 57 -- 2.5 Distributed Source Coding 59 -- Appendix 2.1 Maximum a Posteriori Detection 69 -- References 71 -- 3 Adaptive and Reconfigurable Modulation 77 -- 3.1 Coded Modulation 77 -- 3.2 Adaptive Coded Modulation for Fading Channels 86 -- References 89 -- 4 Space / Time Coding 93 -- 4.1 Diversity Gain 93 -- 4.2 Space / Time Coding 98 -- 4.3 Space / Time Block Codes from Orthogonal Designs 112 -- 4.4 Channel Estimation Imperfections 122 -- 4.5 Quasi-Orthogonal Space / Time Block Codes 123 -- 4.6 Space / Time Convolutional Codes 127 -- 4.7 Algebraic Space / Time Codes 128 -- 4.8 Differential Space / Time Modulation 133 -- 4.9 Multiple Transmit Antenna Differential Detection from Generalized Orthogonal Designs 142 -- 4.10 Layered Space / Time Coding 148 -- 4.11 Concatenated Space / Time Block Coding 157 -- 4.12 Estimation of MIMO Channel 165 -- 4.13 Space / Time Codes for Frequency Selective Channels 168 -- 4.14 Optimization of a MIMO System 174 -- 4.15 MIMO Systems with Constellation Rotation 182 -- 4.16 Diagonal Algebraic Space / Time Block Codes 187 -- Appendix 4.1 QR Factorization 192 -- Appendix 4.2 Lattice Code Decoder for Space / Time Codes 194 -- Appendix 4.3 MIMO Channel Capacity 195 -- References 200 -- 5 Multiuser Communication 209 -- 5.1 Pseudorandom Sequences 209 -- 5.2 Multiuser CDMA Receivers 220 -- 5.3 Minimum Mean Square Error (MMSE) Linear Multiuser Detection 237 -- 5.4 Single User LMMSE Receivers for Frequency Selective Fading Channels 246.
5.5 Signal Subspace-Based Channel Estimation for CDMA Systems 253 -- 5.6 Iterative Receivers for Layered Space / Time Coding 259 -- Appendix 5.1 Linear and Matrix Algebra 277 -- References 283 -- 6 Channel Estimation and Equalization 291 -- 6.1 Equalization in the Digital Data Transmission System 291 -- 6.2 LMS Equalizer 297 -- 6.3 Detection for a Statistically Known, Time Varying Channel 301 -- 6.4 LMS-Adaptive MLSE Equalization on Multipath Fading Channels 306 -- 6.5 Adaptive Channel Identification and Data Demodulation 311 -- 6.6 Turbo Equalization 324 -- 6.7 Kalman Filter Based Joint Channel Estimation and Data Detection Over Fading Channels 330 -- 6.8 Equalization Using Higher Order Signal Statistics 335 -- References 345 -- 7 Orthogonal Frequency Division Multiplexing / OFDM and Multicarrier CDMA 351 -- 7.1 Timing and Frequency Offset in OFDM 351 -- 7.2 Fading Channel Estimation for OFDM Systems 357 -- 7.3 64 DAPSK and 64 QAM Modulated OFDM Signals 363 -- 7.4 Space / Time Coding with OFDM Signals 367 -- 7.5 Layered Space / Time Coding for MIMO OFDM 375 -- 7.6 Space / Time Coded TDMA/OFDM Reconfiguration Efficiency 379 -- 7.7 Multicarrier CDMA System 392 -- 7.8 Multicarrier DS-CDMA Broadcast Systems 396 -- 7.9 Frame By Frame Adaptive Rate Coded Multicarrier DS-CDMA System 399 -- 7.10 Intermodulation Interference Suppression in Multicarrier CDMA Systems 405 -- 7.11 Successive Interference Cancellation in Multicarrier DS-CDMA Systems 409 -- 7.12 MMSE Detection of Multicarrier CDMA 413 -- 7.13 Approximation of Optimum Multiuser Receiver for Space / Time Coded Multicarrier CDMA Systems 419 -- 7.14 Parallel Interference Cancellation in OFDM Systems in Time-Varying Multipath Fading Channels 430 -- 7.15 Zero Forcing OFDM Equalizer in Time-Varying Multipath Fading Channels 437 -- 7.16 Channel Estimation for OFDM Systems Using Multiple Receive Antennas 442 -- 7.17 Turbo Processing for an OFDM-Based MIMO System 445 -- 7.18 PAPR Reduction of OFDM Signals 447 -- Appendix 7.1 451 -- References 452. 8 UltraWide Band Radio 459 -- 8.1 UWB Multiple Access in a Gaussian Channel 459 -- 8.2 The UWB Channel 462 -- 8.3 UWB System with M-ary Modulation 468 -- 8.4 M-ary PPM UWB Multiple Access 476 -- 8.5 Coded UWB Schemes 483 -- 8.6 Multiuser Detection in UWB Radio 486 -- 8.7 UWB with Space / Time Processing 487 -- 8.8 Beamforming for UWB Radio 492 -- References 519 -- 9 Linear Precoding for MIMO Channels 523 -- 9.1 Space / Time Precoders and Equalizers for MIMO Channels 523 -- 9.2 Linear Precoding Based on Convex Optimization Theory 530 -- 9.3 Convex Optimization-Theory-Based Beamforming 540 -- References 561 -- 10 Cognitive Networks 565 -- 10.1 Optimal Channel Sensing in Cognitive Wireless Networks 565 -- 10.2 Optimal Sequential Channel Sensing 568 -- 10.3 Optimal Parallel Multiband Channel Sensing 569 -- 10.4 Collaborative Spectrum Sensing 573 -- 10.5 Multichannel Cognitive MAC 578 -- References 583 -- 11 Relay-AssistedWireless Networks 585 /A. Agustin, J. Vidal,O.Muñoz, and S. Glisic -- 11.1 Introduction 585 -- 11.2 Background and Related Work 586 -- 11.3 Cooperative Communications 593 -- 11.4 Relay-Assisted Communications 616 -- 11.5 Two-Way Relay-Assisted Communications 646 -- 11.6 Relay-Assisted Communications With Reuse of Resources 651 -- Appendices 668 -- 12 Biologically Inspired Paradigms inWireless Networks 683 -- 12.1 Biologically Inspired Model for Securing Hybrid Mobile Ad Hoc Networks 683 -- 12.2 Biologically Inspired Routing in Ad Hoc Networks 687 -- 12.3 Analytical Modeling of AntNet as Adaptive Mobile Agent Based Routing 691 -- 12.4 Biologically Inspired Algorithm for Optimum Multicasting 697 -- 12.5 Biologically Inspired (BI) Distributed Topology Control 703 -- 12.6 Optimization of Mobile Agent Routing in Sensor Networks 708 -- 12.7 Epidemic Routing 710 -- 12.8 Nano-Networks 715 -- 12.9 Genetic Algorithm Based Dynamic Topology Reconfiguration in Cellular Multihop Wireless Networks 718 -- References 739 -- 13 Positioning in Wireless Networks 743 -- 13.1 Mobile Station Location in Cellular Networks 743. 13.2 Relative Positioning in Wireless Sensor Networks 753 -- 13.3 Average Performance of Circular and Hyperbolic Geolocation 762 -- References 771 -- 14 Wireless Networks Connectivity 773 -- 14.1 Survivable Wireless Networks Design 773 -- 14.2 Survivability of Wireless Ad Hoc Networks 776 -- 14.3 Network Dimensioning 777 -- 14.4 Survivable Network Under General Traffic 785 -- 14.5 Stochastic Geometry and Random Graphs Theory 791 -- References 798 -- 15 Advanced Routing and Network Coding 801 -- 15.1 Conventional Routing Versus Network Coding 801 -- 15.2 A Max-Flow Min-Cut Theorem 803 -- 15.3 Algebraic Formulation of Network Coding 807 -- 15.4 Random Network Coding 811 -- 15.5 Gossip Based Protocol and Network Coding 813 -- 15.6 Network Coding With Reduced Complexity 816 -- 15.7 Multisource Multicast Network Switching 820 -- 15.8 Optimization of Wireless Multicast Ad-Hoc Networks 831 -- 15.9 Optimization of Multicast Wireless Ad-Hoc Network Using Soft Graph Coloring and Non-Linear Cubic Games 843 -- 15.10 Joint Optimization of Routing and Medium Contention in Multihop Multicast Wireless Network 855 -- 15.11 Routing and Network Stability 861 -- 15.12 Lagrangian Decomposition of the Multicomodity Flow Optimization Problem 867 -- 15.13 Flow Optimization in Heterogeneous Networks 868 -- 15.14 Dynamic Resource Allocation in Computing Clouds 879 -- 16 Network Formation Games 887 -- 16.1 General Model of Network Formation Games 887 -- 16.2 Knowledge Based Network Formation Games 893 -- 16.3 Coalition Games in Wireless Ad Hoc Networks 897 -- 16.4 HD Game Based TCP Selection 912 -- 16.4.1 Evolutionary Stable Strategy 914 -- 16.4.2 TCP Protocol Competition in Wireless Networks 918 -- References 919 -- Index 923. |
| Record Nr. | UNINA-9910139618503321 |
Glisic Savo G.
|
||
| Chichester, West Sussex, U.K. ; , : Wiley, , 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced wireless communications & Internet : future evolving technologies / / Savo G. Glisic
| Advanced wireless communications & Internet : future evolving technologies / / Savo G. Glisic |
| Autore | Glisic Savo G. |
| Edizione | [3rd ed.] |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. ; , : Wiley, , 2011 |
| Descrizione fisica | 1 online resource (951 p.) |
| Disciplina | 621.384 |
| Soggetto topico |
Wireless communication systems - Technological innovations
Internet |
| ISBN |
1-119-99175-7
1-283-17791-9 9786613177919 1-119-99163-3 1-119-99162-5 |
| Classificazione | TEC041000 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- Preface to the Third Edition xix -- 1 Fundamentals 1 -- 1.1 4G and the Book Layout 1 -- 1.2 General Structure of 4G Signals 5 -- 1.3 Next Generation Internet 16 -- 1.4 Cloud Computing and Network Virtualization 18 -- 1.5 Economics of Utility Computing 20 -- 1.6 Drawbacks of Cloud Computing 22 -- 1.7 Wireless Grids and Clouds 24 -- References 30 -- 2 Adaptive Coding 35 -- 2.1 Adaptive and Reconfigurable Block Coding 35 -- 2.2 Adaptive and Reconfigurable Convolutional Codes 40 -- 2.3 Concatenated Codes with Interleavers 51 -- 2.4 Adaptive Coding, Practice and Prospects 57 -- 2.5 Distributed Source Coding 59 -- Appendix 2.1 Maximum a Posteriori Detection 69 -- References 71 -- 3 Adaptive and Reconfigurable Modulation 77 -- 3.1 Coded Modulation 77 -- 3.2 Adaptive Coded Modulation for Fading Channels 86 -- References 89 -- 4 Space / Time Coding 93 -- 4.1 Diversity Gain 93 -- 4.2 Space / Time Coding 98 -- 4.3 Space / Time Block Codes from Orthogonal Designs 112 -- 4.4 Channel Estimation Imperfections 122 -- 4.5 Quasi-Orthogonal Space / Time Block Codes 123 -- 4.6 Space / Time Convolutional Codes 127 -- 4.7 Algebraic Space / Time Codes 128 -- 4.8 Differential Space / Time Modulation 133 -- 4.9 Multiple Transmit Antenna Differential Detection from Generalized Orthogonal Designs 142 -- 4.10 Layered Space / Time Coding 148 -- 4.11 Concatenated Space / Time Block Coding 157 -- 4.12 Estimation of MIMO Channel 165 -- 4.13 Space / Time Codes for Frequency Selective Channels 168 -- 4.14 Optimization of a MIMO System 174 -- 4.15 MIMO Systems with Constellation Rotation 182 -- 4.16 Diagonal Algebraic Space / Time Block Codes 187 -- Appendix 4.1 QR Factorization 192 -- Appendix 4.2 Lattice Code Decoder for Space / Time Codes 194 -- Appendix 4.3 MIMO Channel Capacity 195 -- References 200 -- 5 Multiuser Communication 209 -- 5.1 Pseudorandom Sequences 209 -- 5.2 Multiuser CDMA Receivers 220 -- 5.3 Minimum Mean Square Error (MMSE) Linear Multiuser Detection 237 -- 5.4 Single User LMMSE Receivers for Frequency Selective Fading Channels 246.
5.5 Signal Subspace-Based Channel Estimation for CDMA Systems 253 -- 5.6 Iterative Receivers for Layered Space / Time Coding 259 -- Appendix 5.1 Linear and Matrix Algebra 277 -- References 283 -- 6 Channel Estimation and Equalization 291 -- 6.1 Equalization in the Digital Data Transmission System 291 -- 6.2 LMS Equalizer 297 -- 6.3 Detection for a Statistically Known, Time Varying Channel 301 -- 6.4 LMS-Adaptive MLSE Equalization on Multipath Fading Channels 306 -- 6.5 Adaptive Channel Identification and Data Demodulation 311 -- 6.6 Turbo Equalization 324 -- 6.7 Kalman Filter Based Joint Channel Estimation and Data Detection Over Fading Channels 330 -- 6.8 Equalization Using Higher Order Signal Statistics 335 -- References 345 -- 7 Orthogonal Frequency Division Multiplexing / OFDM and Multicarrier CDMA 351 -- 7.1 Timing and Frequency Offset in OFDM 351 -- 7.2 Fading Channel Estimation for OFDM Systems 357 -- 7.3 64 DAPSK and 64 QAM Modulated OFDM Signals 363 -- 7.4 Space / Time Coding with OFDM Signals 367 -- 7.5 Layered Space / Time Coding for MIMO OFDM 375 -- 7.6 Space / Time Coded TDMA/OFDM Reconfiguration Efficiency 379 -- 7.7 Multicarrier CDMA System 392 -- 7.8 Multicarrier DS-CDMA Broadcast Systems 396 -- 7.9 Frame By Frame Adaptive Rate Coded Multicarrier DS-CDMA System 399 -- 7.10 Intermodulation Interference Suppression in Multicarrier CDMA Systems 405 -- 7.11 Successive Interference Cancellation in Multicarrier DS-CDMA Systems 409 -- 7.12 MMSE Detection of Multicarrier CDMA 413 -- 7.13 Approximation of Optimum Multiuser Receiver for Space / Time Coded Multicarrier CDMA Systems 419 -- 7.14 Parallel Interference Cancellation in OFDM Systems in Time-Varying Multipath Fading Channels 430 -- 7.15 Zero Forcing OFDM Equalizer in Time-Varying Multipath Fading Channels 437 -- 7.16 Channel Estimation for OFDM Systems Using Multiple Receive Antennas 442 -- 7.17 Turbo Processing for an OFDM-Based MIMO System 445 -- 7.18 PAPR Reduction of OFDM Signals 447 -- Appendix 7.1 451 -- References 452. 8 UltraWide Band Radio 459 -- 8.1 UWB Multiple Access in a Gaussian Channel 459 -- 8.2 The UWB Channel 462 -- 8.3 UWB System with M-ary Modulation 468 -- 8.4 M-ary PPM UWB Multiple Access 476 -- 8.5 Coded UWB Schemes 483 -- 8.6 Multiuser Detection in UWB Radio 486 -- 8.7 UWB with Space / Time Processing 487 -- 8.8 Beamforming for UWB Radio 492 -- References 519 -- 9 Linear Precoding for MIMO Channels 523 -- 9.1 Space / Time Precoders and Equalizers for MIMO Channels 523 -- 9.2 Linear Precoding Based on Convex Optimization Theory 530 -- 9.3 Convex Optimization-Theory-Based Beamforming 540 -- References 561 -- 10 Cognitive Networks 565 -- 10.1 Optimal Channel Sensing in Cognitive Wireless Networks 565 -- 10.2 Optimal Sequential Channel Sensing 568 -- 10.3 Optimal Parallel Multiband Channel Sensing 569 -- 10.4 Collaborative Spectrum Sensing 573 -- 10.5 Multichannel Cognitive MAC 578 -- References 583 -- 11 Relay-AssistedWireless Networks 585 /A. Agustin, J. Vidal,O.Muñoz, and S. Glisic -- 11.1 Introduction 585 -- 11.2 Background and Related Work 586 -- 11.3 Cooperative Communications 593 -- 11.4 Relay-Assisted Communications 616 -- 11.5 Two-Way Relay-Assisted Communications 646 -- 11.6 Relay-Assisted Communications With Reuse of Resources 651 -- Appendices 668 -- 12 Biologically Inspired Paradigms inWireless Networks 683 -- 12.1 Biologically Inspired Model for Securing Hybrid Mobile Ad Hoc Networks 683 -- 12.2 Biologically Inspired Routing in Ad Hoc Networks 687 -- 12.3 Analytical Modeling of AntNet as Adaptive Mobile Agent Based Routing 691 -- 12.4 Biologically Inspired Algorithm for Optimum Multicasting 697 -- 12.5 Biologically Inspired (BI) Distributed Topology Control 703 -- 12.6 Optimization of Mobile Agent Routing in Sensor Networks 708 -- 12.7 Epidemic Routing 710 -- 12.8 Nano-Networks 715 -- 12.9 Genetic Algorithm Based Dynamic Topology Reconfiguration in Cellular Multihop Wireless Networks 718 -- References 739 -- 13 Positioning in Wireless Networks 743 -- 13.1 Mobile Station Location in Cellular Networks 743. 13.2 Relative Positioning in Wireless Sensor Networks 753 -- 13.3 Average Performance of Circular and Hyperbolic Geolocation 762 -- References 771 -- 14 Wireless Networks Connectivity 773 -- 14.1 Survivable Wireless Networks Design 773 -- 14.2 Survivability of Wireless Ad Hoc Networks 776 -- 14.3 Network Dimensioning 777 -- 14.4 Survivable Network Under General Traffic 785 -- 14.5 Stochastic Geometry and Random Graphs Theory 791 -- References 798 -- 15 Advanced Routing and Network Coding 801 -- 15.1 Conventional Routing Versus Network Coding 801 -- 15.2 A Max-Flow Min-Cut Theorem 803 -- 15.3 Algebraic Formulation of Network Coding 807 -- 15.4 Random Network Coding 811 -- 15.5 Gossip Based Protocol and Network Coding 813 -- 15.6 Network Coding With Reduced Complexity 816 -- 15.7 Multisource Multicast Network Switching 820 -- 15.8 Optimization of Wireless Multicast Ad-Hoc Networks 831 -- 15.9 Optimization of Multicast Wireless Ad-Hoc Network Using Soft Graph Coloring and Non-Linear Cubic Games 843 -- 15.10 Joint Optimization of Routing and Medium Contention in Multihop Multicast Wireless Network 855 -- 15.11 Routing and Network Stability 861 -- 15.12 Lagrangian Decomposition of the Multicomodity Flow Optimization Problem 867 -- 15.13 Flow Optimization in Heterogeneous Networks 868 -- 15.14 Dynamic Resource Allocation in Computing Clouds 879 -- 16 Network Formation Games 887 -- 16.1 General Model of Network Formation Games 887 -- 16.2 Knowledge Based Network Formation Games 893 -- 16.3 Coalition Games in Wireless Ad Hoc Networks 897 -- 16.4 HD Game Based TCP Selection 912 -- 16.4.1 Evolutionary Stable Strategy 914 -- 16.4.2 TCP Protocol Competition in Wireless Networks 918 -- References 919 -- Index 923. |
| Record Nr. | UNINA-9910806990803321 |
|
Glisic Savo G.
|
||
| Chichester, West Sussex, U.K. ; , : Wiley, , 2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced wireless networks : technology and business models / / Savo Glisic
| Advanced wireless networks : technology and business models / / Savo Glisic |
| Autore | Glisic Savo G. |
| Edizione | [Third edition.] |
| Pubbl/distr/stampa | Chichester, West Sussex, United Kingdom : , : Wiley, , 2016 |
| Descrizione fisica | 1 online resource (1148 p.) |
| Disciplina | 621.382 |
| Soggetto topico | Wireless communication systems |
| ISBN |
1-119-09687-1
1-119-09688-X 1-119-09686-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface xv -- 1 Introduction: Generalized Model of Advanced Wireless Networks 1 -- 1.1 Network Model 3 -- 1.2 Network Connectivity 5 -- 1.3 Wireless Network Design with Small World Properties 7 -- 1.4 Frequency Channels Backup 11 -- 1.5 Generalized Network Model 13 -- 1.6 Routing Protocols Over s-Lattice Network 14 -- 1.7 Network Performance 16 -- 1.8 Node, Route, Topology, and Network Robustness 19 -- 1.9 Power Consumption 20 -- 1.10 Protocol Complexity 20 -- 1.11 Performance Evaluation 21 -- 1.12 Book Layout 27 -- Appendix A.1 33 -- References 34 -- 2 Adaptive Network Layer 35 -- 2.1 Graphs and Routing Protocols 35 -- 2.2 Graph Theory 54 -- 2.3 Routing with Topology Aggregation 56 -- References 60 -- 3 Mobility Management 65 -- 3.1 Cellular Networks 65 -- 3.2 Cellular Systems with Prioritized Handoff 89 -- 3.3 Cell Residing Time Distribution 100 -- 3.4 Mobility Prediction in Pico- and Micro-Cellular Networks 105 -- Appendix A.3 Distance Calculation in an Intermediate Cell 116 -- References 122 -- 4 Ad Hoc Networks 126 -- 4.1 Routing Protocols 126 -- 4.2 Hybrid Routing Protocol 146 -- 4.3 Scalable Routing Strategies 152 -- 4.4 Multipath Routing 160 -- 4.5 Clustering Protocols 162 -- 4.6 Cashing Schemes for Routing 175 -- 4.7 Distributed QoS Routing 181 -- References 190 -- 5 Sensor Networks 194 -- 5.1 Introduction 194 -- 5.2 Sensor Network Parameters 196 -- 5.3 Sensor Network Architecture 199 -- 5.4 Mobile Sensor Network Deployment 209 -- 5.5 Directed Diffusion 212 -- 5.6 Aggregation in Wireless Sensor Networks 216 -- 5.7 Boundary Estimation 220 -- 5.8 Optimal Transmission Radius in Sensor Networks 227 -- 5.9 Data Funneling 233 -- 5.10 Equivalent Transport Control Protocol in Sensor Networks 236 -- References 237 -- 6 Security 244 -- 6.1 Authentication 244 -- 6.2 Security Architecture 253 -- 6.3 Key Management 257 -- 6.4 Security in Ad Hoc Networks 261 -- 6.5 Security in Sensor Networks 268 -- References 269 -- 7 Network Economics 272 -- 7.1 Fundamentals of Network Economics 272.
7.2 Wireless Network Microeconomics: Data Sponsoring 286 -- 7.3 Spectrum Pricing for Market Equilibrium 291 -- 7.4 Sequential Spectrum Sharing 300 -- 7.5 Data Plan Trading 308 -- References 315 -- 8 Multi-Hop Cellular Networks 318 -- 8.1 Modeling Multi-Hop Multi-Operator Multi-Technology Wireless Networks 318 -- 8.2 Technology Background 319 -- 8.3 System Model and Notation 321 -- 8.4 m3 Route Discovery Protocols 323 -- 8.5 Performance of m3 Route Discovery Protocols 327 -- 8.6 Protocol Complexity 329 -- 8.7 Traffic Offloading Incentives 330 -- 8.8 Performance Illustrations 335 -- References 344 -- 9 Cognitive Networks 346 -- 9.1 Technology Background 346 -- 9.2 Spectrum Auctions for Multi-hop Cognitive Networks 350 -- 9.3 Compound Auctioning in Multi-hop Cognitive Cellular Networks 363 -- References 388 -- 10 Stochastic Geometry 391 -- 10.1 Background Theory 391 -- References 398 -- 11 Heterogeneous Networks 402 -- 11.1 Preliminaries 402 -- 11.2 Self-Organized Small Cell Networks 404 -- 11.3 Dynamic Network Architecture 411 -- 11.4 Economics of Heterogeneous Networks 434 -- References 443 -- 12 Access Point Selection 446 -- 12.1 Background Technology 446 -- 12.2 Network Selection Game 449 -- 12.3 Joint Access Point Selection and Power Allocation 453 -- 12.4 Joint AP Selection and Beamforming Optimization 463 -- References 474 -- 13 Self-Organizing Networks 478 -- 13.1 Self-Organizing Network Optimization 478 -- 13.2 System Model 478 -- 13.3 Joint Optimization of Tilts and AP Association 481 -- References 484 -- 14 Complex Networks 486 -- 14.1 Evolution Towards Large-Scale Networks 486 -- 14.2 Network Characteristics 491 -- 14.3 Random Graphs 494 -- References 496 -- 15 Massive MIMO 499 -- 15.1 Linearly Precoded Multicellular Downlink System 499 -- 15.2 System Model 503 -- 15.3 Optimization for Perfect Channel State Information 505 -- 15.4 Robust Designs for WSRM Problem 509 -- Appendix A.15 519 -- Appendix B.15 519 -- References 521 -- 16 Network Optimization Theory 523. 16.1 Introduction 523 -- 16.2 Layering as Optimization Decomposition 524 -- 16.3 Cross-Layer Optimization 533 -- 16.4 Optimization Problem Decomposition Methods 543 -- References 554 -- 17 Network Information Theory 557 -- 17.1 Capacity of Ad Hoc Networks 557 -- 17.2 Information Theory and Network Architectures 569 -- 17.3 Cooperative Transmission in Wireless Multihop Ad Hoc Networks 577 -- References 584 -- 18 Stability of Advanced Network Architectures 585 -- 18.1 Stability of Cooperative Cognitive Wireless Networks 585 -- 18.2 System Model 586 -- 18.4 Optimal Control Policy 592 -- 18.5 Achievable Rates 594 -- 18.6 Stabilizing Transmission Policies 598 -- References 605 -- 19 Multi-Operator Spectrum Sharing 607 -- 19.1 Business Models for Spectrum Sharing 607 -- 19.2 Spectrum Sharing in Multi-hop Networks 638 -- References 656 -- 20 Large Scale Networks and Mean Field Theory 659 -- 20.1 MFT for Large Heterogeneous Cellular Networks 659 -- 20.2 Large Scale Network Model Compression 664 -- 20.3 Mean Field Theory Model of Large Scale DTN Networks 668 -- 20.4 Mean Field Modeling of Adaptive Infection Recovery in Multicast DTN Networks 674 -- 20.5 Mean Field Theory for Scale-Free Random Networks 701 -- 20.6 Spectrum Sharing and MFT 709 -- 20.7 Modeling Dynamics of Complex System 711 -- Appendix A.20 Iterative Algorithm to Solve Systems of Nonlinear ODEs (DiNSE-Algorithm) 721 -- Appendix B.20 Infection Rate of Destinations for DNCM 722 -- Appendix C.20 Infection Rate for Basic Epidemic Routing 722 -- References 722 -- 21 mmWave Networks 726 -- 21.1 mmWave Technology in Subcellular Architecture 726 -- 21.2 Microeconomics of Dynamic mmWave Networks 737 -- References 747 -- 22 Cloud Computing in Wireless Networks 750 -- 22.1 Technology Background 750 -- 22.2 System Model 752 -- 22.3 System Optimization 756 -- 22.4 Dynamic Control Algorithm 758 -- 22.5 Achievable Rates 761 -- 22.6 Stabilizing Control Policies 763 -- References 769 -- 23 Wireless Networks and Matching Theory 771. 23.1 Background Technology: Matching Markets 772 -- 23.2 Distributed Stable Matching in Multiple Operator Cellular Network with Traffic Offloading 776 -- 23.3 College Admissions Game Model for Cellular Networks with Traffic Offloading 779 -- 23.4 Many to Many Matching Games for Caching in Wireless Networks 783 -- 23.5 Many to One Matching with Externalities in Cellular Networks with Traffic Offloading 787 -- 23.6 Security in Matching of Device to Device Pairs in Cellular Networks 791 -- References 795 -- 24 Dynamic Wireless Network Infrastructure 797 -- 24.1 Infrastructure Sharing in Multi-Operator Cellular Networks 797 -- 24.2 User Provided Connectivity 802 -- 24.3 Network Virtualization 806 -- 24.4 Software Defined Networks 810 -- 24.5 SDN Security 816 -- References 819 -- Index 827. |
| Record Nr. | UNINA-9910135023103321 |
|
Glisic Savo G.
|
||
| Chichester, West Sussex, United Kingdom : , : Wiley, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced wireless networks : technology and business models / / Savo Glisic
| Advanced wireless networks : technology and business models / / Savo Glisic |
| Autore | Glisic Savo G. |
| Edizione | [Third edition.] |
| Pubbl/distr/stampa | Chichester, West Sussex, United Kingdom : , : Wiley, , 2016 |
| Descrizione fisica | 1 online resource (1148 p.) |
| Disciplina | 621.382 |
| Soggetto topico | Wireless communication systems |
| ISBN |
1-119-09687-1
1-119-09688-X 1-119-09686-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Preface xv -- 1 Introduction: Generalized Model of Advanced Wireless Networks 1 -- 1.1 Network Model 3 -- 1.2 Network Connectivity 5 -- 1.3 Wireless Network Design with Small World Properties 7 -- 1.4 Frequency Channels Backup 11 -- 1.5 Generalized Network Model 13 -- 1.6 Routing Protocols Over s-Lattice Network 14 -- 1.7 Network Performance 16 -- 1.8 Node, Route, Topology, and Network Robustness 19 -- 1.9 Power Consumption 20 -- 1.10 Protocol Complexity 20 -- 1.11 Performance Evaluation 21 -- 1.12 Book Layout 27 -- Appendix A.1 33 -- References 34 -- 2 Adaptive Network Layer 35 -- 2.1 Graphs and Routing Protocols 35 -- 2.2 Graph Theory 54 -- 2.3 Routing with Topology Aggregation 56 -- References 60 -- 3 Mobility Management 65 -- 3.1 Cellular Networks 65 -- 3.2 Cellular Systems with Prioritized Handoff 89 -- 3.3 Cell Residing Time Distribution 100 -- 3.4 Mobility Prediction in Pico- and Micro-Cellular Networks 105 -- Appendix A.3 Distance Calculation in an Intermediate Cell 116 -- References 122 -- 4 Ad Hoc Networks 126 -- 4.1 Routing Protocols 126 -- 4.2 Hybrid Routing Protocol 146 -- 4.3 Scalable Routing Strategies 152 -- 4.4 Multipath Routing 160 -- 4.5 Clustering Protocols 162 -- 4.6 Cashing Schemes for Routing 175 -- 4.7 Distributed QoS Routing 181 -- References 190 -- 5 Sensor Networks 194 -- 5.1 Introduction 194 -- 5.2 Sensor Network Parameters 196 -- 5.3 Sensor Network Architecture 199 -- 5.4 Mobile Sensor Network Deployment 209 -- 5.5 Directed Diffusion 212 -- 5.6 Aggregation in Wireless Sensor Networks 216 -- 5.7 Boundary Estimation 220 -- 5.8 Optimal Transmission Radius in Sensor Networks 227 -- 5.9 Data Funneling 233 -- 5.10 Equivalent Transport Control Protocol in Sensor Networks 236 -- References 237 -- 6 Security 244 -- 6.1 Authentication 244 -- 6.2 Security Architecture 253 -- 6.3 Key Management 257 -- 6.4 Security in Ad Hoc Networks 261 -- 6.5 Security in Sensor Networks 268 -- References 269 -- 7 Network Economics 272 -- 7.1 Fundamentals of Network Economics 272.
7.2 Wireless Network Microeconomics: Data Sponsoring 286 -- 7.3 Spectrum Pricing for Market Equilibrium 291 -- 7.4 Sequential Spectrum Sharing 300 -- 7.5 Data Plan Trading 308 -- References 315 -- 8 Multi-Hop Cellular Networks 318 -- 8.1 Modeling Multi-Hop Multi-Operator Multi-Technology Wireless Networks 318 -- 8.2 Technology Background 319 -- 8.3 System Model and Notation 321 -- 8.4 m3 Route Discovery Protocols 323 -- 8.5 Performance of m3 Route Discovery Protocols 327 -- 8.6 Protocol Complexity 329 -- 8.7 Traffic Offloading Incentives 330 -- 8.8 Performance Illustrations 335 -- References 344 -- 9 Cognitive Networks 346 -- 9.1 Technology Background 346 -- 9.2 Spectrum Auctions for Multi-hop Cognitive Networks 350 -- 9.3 Compound Auctioning in Multi-hop Cognitive Cellular Networks 363 -- References 388 -- 10 Stochastic Geometry 391 -- 10.1 Background Theory 391 -- References 398 -- 11 Heterogeneous Networks 402 -- 11.1 Preliminaries 402 -- 11.2 Self-Organized Small Cell Networks 404 -- 11.3 Dynamic Network Architecture 411 -- 11.4 Economics of Heterogeneous Networks 434 -- References 443 -- 12 Access Point Selection 446 -- 12.1 Background Technology 446 -- 12.2 Network Selection Game 449 -- 12.3 Joint Access Point Selection and Power Allocation 453 -- 12.4 Joint AP Selection and Beamforming Optimization 463 -- References 474 -- 13 Self-Organizing Networks 478 -- 13.1 Self-Organizing Network Optimization 478 -- 13.2 System Model 478 -- 13.3 Joint Optimization of Tilts and AP Association 481 -- References 484 -- 14 Complex Networks 486 -- 14.1 Evolution Towards Large-Scale Networks 486 -- 14.2 Network Characteristics 491 -- 14.3 Random Graphs 494 -- References 496 -- 15 Massive MIMO 499 -- 15.1 Linearly Precoded Multicellular Downlink System 499 -- 15.2 System Model 503 -- 15.3 Optimization for Perfect Channel State Information 505 -- 15.4 Robust Designs for WSRM Problem 509 -- Appendix A.15 519 -- Appendix B.15 519 -- References 521 -- 16 Network Optimization Theory 523. 16.1 Introduction 523 -- 16.2 Layering as Optimization Decomposition 524 -- 16.3 Cross-Layer Optimization 533 -- 16.4 Optimization Problem Decomposition Methods 543 -- References 554 -- 17 Network Information Theory 557 -- 17.1 Capacity of Ad Hoc Networks 557 -- 17.2 Information Theory and Network Architectures 569 -- 17.3 Cooperative Transmission in Wireless Multihop Ad Hoc Networks 577 -- References 584 -- 18 Stability of Advanced Network Architectures 585 -- 18.1 Stability of Cooperative Cognitive Wireless Networks 585 -- 18.2 System Model 586 -- 18.4 Optimal Control Policy 592 -- 18.5 Achievable Rates 594 -- 18.6 Stabilizing Transmission Policies 598 -- References 605 -- 19 Multi-Operator Spectrum Sharing 607 -- 19.1 Business Models for Spectrum Sharing 607 -- 19.2 Spectrum Sharing in Multi-hop Networks 638 -- References 656 -- 20 Large Scale Networks and Mean Field Theory 659 -- 20.1 MFT for Large Heterogeneous Cellular Networks 659 -- 20.2 Large Scale Network Model Compression 664 -- 20.3 Mean Field Theory Model of Large Scale DTN Networks 668 -- 20.4 Mean Field Modeling of Adaptive Infection Recovery in Multicast DTN Networks 674 -- 20.5 Mean Field Theory for Scale-Free Random Networks 701 -- 20.6 Spectrum Sharing and MFT 709 -- 20.7 Modeling Dynamics of Complex System 711 -- Appendix A.20 Iterative Algorithm to Solve Systems of Nonlinear ODEs (DiNSE-Algorithm) 721 -- Appendix B.20 Infection Rate of Destinations for DNCM 722 -- Appendix C.20 Infection Rate for Basic Epidemic Routing 722 -- References 722 -- 21 mmWave Networks 726 -- 21.1 mmWave Technology in Subcellular Architecture 726 -- 21.2 Microeconomics of Dynamic mmWave Networks 737 -- References 747 -- 22 Cloud Computing in Wireless Networks 750 -- 22.1 Technology Background 750 -- 22.2 System Model 752 -- 22.3 System Optimization 756 -- 22.4 Dynamic Control Algorithm 758 -- 22.5 Achievable Rates 761 -- 22.6 Stabilizing Control Policies 763 -- References 769 -- 23 Wireless Networks and Matching Theory 771. 23.1 Background Technology: Matching Markets 772 -- 23.2 Distributed Stable Matching in Multiple Operator Cellular Network with Traffic Offloading 776 -- 23.3 College Admissions Game Model for Cellular Networks with Traffic Offloading 779 -- 23.4 Many to Many Matching Games for Caching in Wireless Networks 783 -- 23.5 Many to One Matching with Externalities in Cellular Networks with Traffic Offloading 787 -- 23.6 Security in Matching of Device to Device Pairs in Cellular Networks 791 -- References 795 -- 24 Dynamic Wireless Network Infrastructure 797 -- 24.1 Infrastructure Sharing in Multi-Operator Cellular Networks 797 -- 24.2 User Provided Connectivity 802 -- 24.3 Network Virtualization 806 -- 24.4 Software Defined Networks 810 -- 24.5 SDN Security 816 -- References 819 -- Index 827. |
| Record Nr. | UNINA-9910814411003321 |
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Glisic Savo G.
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| Chichester, West Sussex, United Kingdom : , : Wiley, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Advanced wireless networks : Cognitive, cooperative and opportunistic 4G technology / / Savo Glisic, Beatriz Lorenzo
| Advanced wireless networks : Cognitive, cooperative and opportunistic 4G technology / / Savo Glisic, Beatriz Lorenzo |
| Autore | Glisic Savo G. |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Chichester, UK : , : Wiley, , 2009 |
| Descrizione fisica | 1 online resource (893 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) | VeigaBeatriz Lorenzo |
| Soggetto topico |
Wireless communication systems
Telecommunication systems |
| ISBN |
1-282-34951-1
9786612349515 0-470-74572-X 0-470-74573-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Advanced Wireless Networks; Contents; Preface to the Second Edition; 1 Fundamentals; 2 Opportunistic Communications; 3 Relaying and Mesh Networks; 4 Topology Control; 5 Adaptive Medium Access Control; 6 Teletraffic Modeling and Analysis; 7 Adaptive Network Layer; 8 Effective Capacity; 9 Adaptive TCP Layer; 10 Network Optimization Theory; 11 Mobility Management; 12 Cognitive Radio Resource Management; 13 Ad Hoc Networks; 14 Sensor Networks; 15 Security; 16 Active Networks; 17 Network Deployment; 18 Network Management; 19 Network Information Theory; 20 Energy-efficient Wireless Networks. |
| Record Nr. | UNINA-9910146398603321 |
|
Glisic Savo G.
|
||
| Chichester, UK : , : Wiley, , 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Advanced wireless networks : Cognitive, cooperative and opportunistic 4G technology / / Savo Glisic, Beatriz Lorenzo
| Advanced wireless networks : Cognitive, cooperative and opportunistic 4G technology / / Savo Glisic, Beatriz Lorenzo |
| Autore | Glisic Savo G. |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Chichester, UK : , : Wiley, , 2009 |
| Descrizione fisica | 1 online resource (893 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) | VeigaBeatriz Lorenzo |
| Soggetto topico |
Wireless communication systems
Telecommunication systems |
| ISBN |
1-282-34951-1
9786612349515 0-470-74572-X 0-470-74573-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto | Advanced Wireless Networks; Contents; Preface to the Second Edition; 1 Fundamentals; 2 Opportunistic Communications; 3 Relaying and Mesh Networks; 4 Topology Control; 5 Adaptive Medium Access Control; 6 Teletraffic Modeling and Analysis; 7 Adaptive Network Layer; 8 Effective Capacity; 9 Adaptive TCP Layer; 10 Network Optimization Theory; 11 Mobility Management; 12 Cognitive Radio Resource Management; 13 Ad Hoc Networks; 14 Sensor Networks; 15 Security; 16 Active Networks; 17 Network Deployment; 18 Network Management; 19 Network Information Theory; 20 Energy-efficient Wireless Networks. |
| Record Nr. | UNINA-9910830345503321 |
|
Glisic Savo G.
|
||
| Chichester, UK : , : Wiley, , 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Artificial intelligence and quantum computing for advanced wireless networks / / Savo G. Glisic, Beatriz Lorenzo
| Artificial intelligence and quantum computing for advanced wireless networks / / Savo G. Glisic, Beatriz Lorenzo |
| Autore | Glisic Savo G. |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2022 |
| Descrizione fisica | 1 online resource (1259 pages) |
| Disciplina | 006.3843 |
| Soggetto topico |
Quantum computing
Artificial intelligence Wireless communication systems Computació quàntica Intel·ligència artificial Comunicació sense fil, Sistemes de |
| ISBN |
1-119-79028-X
1-119-79032-8 1-119-79031-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910830365203321 |
|
Glisic Savo G.
|
||
| Hoboken, New Jersey : , : Wiley, , 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Artificial intelligence and quantum computing for advanced wireless networks / / Savo G. Glisic, Beatriz Lorenzo
| Artificial intelligence and quantum computing for advanced wireless networks / / Savo G. Glisic, Beatriz Lorenzo |
| Autore | Glisic Savo G. |
| Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , [2021] |
| Descrizione fisica | 1 online resource (1259 pages) |
| Disciplina | 006.3843 |
| Soggetto topico |
Quantum computing
Artificial intelligence Wireless communication systems |
| ISBN |
1-119-79028-X
1-119-79032-8 1-119-79031-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910566692803321 |
|
Glisic Savo G.
|
||
| Hoboken, New Jersey : , : Wiley, , [2021] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||