Power Line Communication Systems for Smart Grids
portes grátis
Power Line Communication Systems for Smart Grids
Casella, Ivan R.; Anpalagan, Alagan
Institution of Engineering and Technology
12/2024
578
Dura
9781839539244
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
Chapter 1: Introduction
Chapter 2: Fundamentals of digital communications
Chapter 3: Basis of error correction coding
Chapter 4: Principles of orthogonal frequency division multiplexing and single carrier frequency domain equalization
Chapter 5: Modern power line communication technologies
Chapter 6: Power line communication channel models
Chapter 7: Noise Mitigation
Chapter 8: Narrowband power line communication systems: PRIME and G3-PLC / IEEE 1901.2 performance
Chapter 9: Broadband power line communication systems: IEEE1901 performance
Chapter 10: An insightful guide to prototyping broadband and capacitive power line communication coupling circuits for low-voltage electric power grids
Chapter 11: Smart grids and the use of power line communications
Chapter 12: Performance Evaluation of PRIME power line communication modems over distribution transformers: a case study
Chapter 13: Power line communication for monitoring and control of distributed generators in smart grids
Chapter 14: Powerline communication devices for electric vehicles charging infrastructure: progress, challenges, opportunities, and status
Chapter 15: Demand side management through power line communication: concepts and challenges
Chapter 16: Direct torque control for doubly fed induction generator based wind turbines employing power line communication technology in smart grid environments
Chapter 17: The use of non-linear filtering to improve the performance of narrowband power line communication in smart grid applications
Chapter 18: Multiple-input multiple-output systems design for narrowband power line communications in smart distribution grids
Chapter 19: Analysis of hybrid communication systems for smart grids
Chapter 2: Fundamentals of digital communications
Chapter 3: Basis of error correction coding
Chapter 4: Principles of orthogonal frequency division multiplexing and single carrier frequency domain equalization
Chapter 5: Modern power line communication technologies
Chapter 6: Power line communication channel models
Chapter 7: Noise Mitigation
Chapter 8: Narrowband power line communication systems: PRIME and G3-PLC / IEEE 1901.2 performance
Chapter 9: Broadband power line communication systems: IEEE1901 performance
Chapter 10: An insightful guide to prototyping broadband and capacitive power line communication coupling circuits for low-voltage electric power grids
Chapter 11: Smart grids and the use of power line communications
Chapter 12: Performance Evaluation of PRIME power line communication modems over distribution transformers: a case study
Chapter 13: Power line communication for monitoring and control of distributed generators in smart grids
Chapter 14: Powerline communication devices for electric vehicles charging infrastructure: progress, challenges, opportunities, and status
Chapter 15: Demand side management through power line communication: concepts and challenges
Chapter 16: Direct torque control for doubly fed induction generator based wind turbines employing power line communication technology in smart grid environments
Chapter 17: The use of non-linear filtering to improve the performance of narrowband power line communication in smart grid applications
Chapter 18: Multiple-input multiple-output systems design for narrowband power line communications in smart distribution grids
Chapter 19: Analysis of hybrid communication systems for smart grids
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
electrical power systems; power grids; electricity grids; energy grids; power transmission; power distribution; electricity transmission; electricity distribution; smart grids; PLC; narrowband PLC; broadband PLC; power system control; power system monitoring; energy management; vehicle to grid; distributed generation; demand side management; power engineering; electrical engineering
Chapter 1: Introduction
Chapter 2: Fundamentals of digital communications
Chapter 3: Basis of error correction coding
Chapter 4: Principles of orthogonal frequency division multiplexing and single carrier frequency domain equalization
Chapter 5: Modern power line communication technologies
Chapter 6: Power line communication channel models
Chapter 7: Noise Mitigation
Chapter 8: Narrowband power line communication systems: PRIME and G3-PLC / IEEE 1901.2 performance
Chapter 9: Broadband power line communication systems: IEEE1901 performance
Chapter 10: An insightful guide to prototyping broadband and capacitive power line communication coupling circuits for low-voltage electric power grids
Chapter 11: Smart grids and the use of power line communications
Chapter 12: Performance Evaluation of PRIME power line communication modems over distribution transformers: a case study
Chapter 13: Power line communication for monitoring and control of distributed generators in smart grids
Chapter 14: Powerline communication devices for electric vehicles charging infrastructure: progress, challenges, opportunities, and status
Chapter 15: Demand side management through power line communication: concepts and challenges
Chapter 16: Direct torque control for doubly fed induction generator based wind turbines employing power line communication technology in smart grid environments
Chapter 17: The use of non-linear filtering to improve the performance of narrowband power line communication in smart grid applications
Chapter 18: Multiple-input multiple-output systems design for narrowband power line communications in smart distribution grids
Chapter 19: Analysis of hybrid communication systems for smart grids
Chapter 2: Fundamentals of digital communications
Chapter 3: Basis of error correction coding
Chapter 4: Principles of orthogonal frequency division multiplexing and single carrier frequency domain equalization
Chapter 5: Modern power line communication technologies
Chapter 6: Power line communication channel models
Chapter 7: Noise Mitigation
Chapter 8: Narrowband power line communication systems: PRIME and G3-PLC / IEEE 1901.2 performance
Chapter 9: Broadband power line communication systems: IEEE1901 performance
Chapter 10: An insightful guide to prototyping broadband and capacitive power line communication coupling circuits for low-voltage electric power grids
Chapter 11: Smart grids and the use of power line communications
Chapter 12: Performance Evaluation of PRIME power line communication modems over distribution transformers: a case study
Chapter 13: Power line communication for monitoring and control of distributed generators in smart grids
Chapter 14: Powerline communication devices for electric vehicles charging infrastructure: progress, challenges, opportunities, and status
Chapter 15: Demand side management through power line communication: concepts and challenges
Chapter 16: Direct torque control for doubly fed induction generator based wind turbines employing power line communication technology in smart grid environments
Chapter 17: The use of non-linear filtering to improve the performance of narrowband power line communication in smart grid applications
Chapter 18: Multiple-input multiple-output systems design for narrowband power line communications in smart distribution grids
Chapter 19: Analysis of hybrid communication systems for smart grids
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
electrical power systems; power grids; electricity grids; energy grids; power transmission; power distribution; electricity transmission; electricity distribution; smart grids; PLC; narrowband PLC; broadband PLC; power system control; power system monitoring; energy management; vehicle to grid; distributed generation; demand side management; power engineering; electrical engineering
