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Power line communications : principles, standards and applications from multimedia to smart grid / edited by Lutz Lampe, Andrea M. Tonello, Theo G. Swart.

Contributor(s): Lampe, Lutz [editor.] | Tonello, Andrea M [editor.] | Swart, Theo G [editor.] | IEEE Xplore (Online Service) [distributor.] | Wiley [publisher.].
Material type: materialTypeLabelBookPublisher: Chichester, West Sussex, United Kingdom : Wiley, 2016Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2016]Edition: Second edition.Description: 1 PDF (xxv, 591 pages).Content type: text Media type: electronic Carrier type: online resourceISBN: 9781118676684.Subject(s): Electric lines -- Carrier transmission | Broadband communication systemsGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.382 Online resources: Abstract with links to resource Also available in print.
Contents:
-- 1 List of Contributors Preface xv / -- List of Acronyms xvii -- Introduction xix -- 1.1 What is a Name? 1 -- 1.2 Historical Notes 2 -- 1.3 About the Book 4 -- References 6 -- 2 Channel Characterization 9 -- 2.1 Introduction 9 -- 2.2 Channel Modeling Fundamentals 10 -- 2.3 Models for Low Voltage (LV) Channels: Outdoor and Indoor Case 31 -- 2.4 Models for Medium Voltage (MV) Channels 75 -- 2.5 Models for Outdoor Channels: High Voltage Case 86 -- 2.6 MIMO Channels 102 -- 2.7 Noise and Interference 122 -- 2.8 Reference Channel Models and Software 138 -- 2.9 Channels in other Scenarios 140 -- References 165 -- 3 Electromagnetic Compatibility 175 -- 3.1 Introduction 175 -- 3.2 Parameters for EMC Considerations 176 -- 3.3 Electromagnetic Emission 182 -- 3.4 Electromagnetic Susceptibility 186 -- 3.5 EMC Coordination 188 -- 3.6 EMC Standardization and Regulation in Europe 194 -- 3.7 Coupling Between Power Line and other Wireline Communications Systems 203 -- 3.8 Final Remarks 217 -- References 219 -- 4 Coupling 221 -- 4.1 Introduction 221 -- 4.2 Coupling Networks 225 -- 4.3 LV Coupling 245 -- 4.4 HV Coupling 250 -- 4.5 MV Coupling 253 -- 4.6 Summary 255 -- References 256 -- 5 Digital Transmission Techniques 259 -- 5.1 Introduction 259 -- 5.2 Single Carrier Modulation 260 -- 5.3 Multicarrier Modulations 286 -- 5.4 Current and Voltage Modulations 306 -- 5.5 Ultra-wideband Modulation 323 -- 5.6 Impulse Noise Mitigation 328 -- 5.7 MIMO Transmission 341 -- 5.8 Coding Techniques 356 -- References 373 -- 6 Medium Access Control and Layers Above in PLC 383 -- 6.1 Introduction 383 -- 6.2 MAC Layer Concepts 384 -- 6.3 Protocols for Different Power Line Communications Applications and Domains386 -- 6.4 Multiple-User Resource Allocation 404 -- 6.5 Cooperative Power Line Communications 426 -- References 442 -- 7 PLC for Home and Industry Automation 449 -- 7.1 Introduction 449 -- 7.2 Home and Industry Automation Using PLC 450 -- 7.3 Popular Home Automation Protocols 451 -- 7.4 Power Line Communication Application for Refrigeration Containers Ships 455.
7.5 Windowed Frequency Hopping System AMIS CX1-Profile 462 -- 7.6 DigitalSTROM@ 468 -- 7.7 Conclusion 470 -- References 471 -- 8 Multimedia PLC Systems 473 -- 8.1 Introduction 473 -- 8.2 QoS Requirements for Multimedia Traffic 473 -- 8.3 Optimizing PLC for Multimedia 477 -- 8.3.1 Overall Design Considerations for Multimedia PLC 477 -- 8.4 Standards on Broadband PLC-Networking Technology 479 -- 8.5 The IEEE 1901 Broadband over Power Line Standard 479 -- 8.6 Performance Evaluation 494 -- 8.7 HomePlug AV2 497 -- 8.8 ITU-T G.996x (G.hn) 499 -- References 508 -- 9 PLC for Smart Grid 511 -- 9.1 Introduction 511 -- 9.2 Standards 519 -- 9.3 Regulation 536 -- 9.4 Applications 545 -- 9.5 Conclusions 561 -- References 562 -- 10 PLC for Vehicles 567 -- 10.1 Introduction 567 -- 10.2 Advantages of PLC 567 -- 10.3 Studies of PLC for Vehicles 568 -- 10.4 Challenges for PLC 573 -- 10.5 An Experimental Implementation 578 -- 10.5.1 Vehicle PLC Testbed 579 -- 10.6 Alternative to and Integration of PLC 583 -- References 585 -- 11 Conclusions 589.
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Previously published as: Power line communications : theory and applications for narrowband and broadband communications over power lines, 2010.

Includes bibliographical references and index.

-- 1 List of Contributors Preface xv / -- List of Acronyms xvii -- Introduction xix -- 1.1 What is a Name? 1 -- 1.2 Historical Notes 2 -- 1.3 About the Book 4 -- References 6 -- 2 Channel Characterization 9 -- 2.1 Introduction 9 -- 2.2 Channel Modeling Fundamentals 10 -- 2.3 Models for Low Voltage (LV) Channels: Outdoor and Indoor Case 31 -- 2.4 Models for Medium Voltage (MV) Channels 75 -- 2.5 Models for Outdoor Channels: High Voltage Case 86 -- 2.6 MIMO Channels 102 -- 2.7 Noise and Interference 122 -- 2.8 Reference Channel Models and Software 138 -- 2.9 Channels in other Scenarios 140 -- References 165 -- 3 Electromagnetic Compatibility 175 -- 3.1 Introduction 175 -- 3.2 Parameters for EMC Considerations 176 -- 3.3 Electromagnetic Emission 182 -- 3.4 Electromagnetic Susceptibility 186 -- 3.5 EMC Coordination 188 -- 3.6 EMC Standardization and Regulation in Europe 194 -- 3.7 Coupling Between Power Line and other Wireline Communications Systems 203 -- 3.8 Final Remarks 217 -- References 219 -- 4 Coupling 221 -- 4.1 Introduction 221 -- 4.2 Coupling Networks 225 -- 4.3 LV Coupling 245 -- 4.4 HV Coupling 250 -- 4.5 MV Coupling 253 -- 4.6 Summary 255 -- References 256 -- 5 Digital Transmission Techniques 259 -- 5.1 Introduction 259 -- 5.2 Single Carrier Modulation 260 -- 5.3 Multicarrier Modulations 286 -- 5.4 Current and Voltage Modulations 306 -- 5.5 Ultra-wideband Modulation 323 -- 5.6 Impulse Noise Mitigation 328 -- 5.7 MIMO Transmission 341 -- 5.8 Coding Techniques 356 -- References 373 -- 6 Medium Access Control and Layers Above in PLC 383 -- 6.1 Introduction 383 -- 6.2 MAC Layer Concepts 384 -- 6.3 Protocols for Different Power Line Communications Applications and Domains386 -- 6.4 Multiple-User Resource Allocation 404 -- 6.5 Cooperative Power Line Communications 426 -- References 442 -- 7 PLC for Home and Industry Automation 449 -- 7.1 Introduction 449 -- 7.2 Home and Industry Automation Using PLC 450 -- 7.3 Popular Home Automation Protocols 451 -- 7.4 Power Line Communication Application for Refrigeration Containers Ships 455.

7.5 Windowed Frequency Hopping System AMIS CX1-Profile 462 -- 7.6 DigitalSTROM@ 468 -- 7.7 Conclusion 470 -- References 471 -- 8 Multimedia PLC Systems 473 -- 8.1 Introduction 473 -- 8.2 QoS Requirements for Multimedia Traffic 473 -- 8.3 Optimizing PLC for Multimedia 477 -- 8.3.1 Overall Design Considerations for Multimedia PLC 477 -- 8.4 Standards on Broadband PLC-Networking Technology 479 -- 8.5 The IEEE 1901 Broadband over Power Line Standard 479 -- 8.6 Performance Evaluation 494 -- 8.7 HomePlug AV2 497 -- 8.8 ITU-T G.996x (G.hn) 499 -- References 508 -- 9 PLC for Smart Grid 511 -- 9.1 Introduction 511 -- 9.2 Standards 519 -- 9.3 Regulation 536 -- 9.4 Applications 545 -- 9.5 Conclusions 561 -- References 562 -- 10 PLC for Vehicles 567 -- 10.1 Introduction 567 -- 10.2 Advantages of PLC 567 -- 10.3 Studies of PLC for Vehicles 568 -- 10.4 Challenges for PLC 573 -- 10.5 An Experimental Implementation 578 -- 10.5.1 Vehicle PLC Testbed 579 -- 10.6 Alternative to and Integration of PLC 583 -- References 585 -- 11 Conclusions 589.

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Also available in print.

Mode of access: World Wide Web

Description based on PDF viewed 10/24/2017.

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