Green Networking and Communications

Green Networking and Communications

by Shafiullah Khan, Jaime Lloret Mauri
Released October 2013
Publisher(s): CRC Press
ISBN: 9781466568754

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Book description

Green Networking and Communications: ICT for Sustainability brings together leading researchers to discuss emerging developments in energy-efficient networking and communications. It covers the spectrum of research subjects, including methodologies and architectures for energy efficiency, energy-efficient protocols and networks, energy management, smart grid communications, and communication technologies for green solutions. It addresses open research challenges regarding energy efficiency for IT and for wireless sensor networks, including mobile and wireless access networks, broadband access networks, home networks, vehicular networks, and smart grids.

Table of contents

  1. Front Cover
  2. Contents
  3. Contributors (1/2)
  4. Contributors (2/2)
  5. Chapter 1: Peer-to-Peer Content Sharing Techniques for Energy Efficiency in Wireless Networks with Fast Channel Variations (1/6)
  6. Chapter 1: Peer-to-Peer Content Sharing Techniques for Energy Efficiency in Wireless Networks with Fast Channel Variations (2/6)
  7. Chapter 1: Peer-to-Peer Content Sharing Techniques for Energy Efficiency in Wireless Networks with Fast Channel Variations (3/6)
  8. Chapter 1: Peer-to-Peer Content Sharing Techniques for Energy Efficiency in Wireless Networks with Fast Channel Variations (4/6)
  9. Chapter 1: Peer-to-Peer Content Sharing Techniques for Energy Efficiency in Wireless Networks with Fast Channel Variations (5/6)
  10. Chapter 1: Peer-to-Peer Content Sharing Techniques for Energy Efficiency in Wireless Networks with Fast Channel Variations (6/6)
  11. Chapter 2: FIREMAN: Foraging-Inspired Radio-Communication Energy Management for Green Multi-Radio Networks (1/4)
  12. Chapter 2: FIREMAN: Foraging-Inspired Radio-Communication Energy Management for Green Multi-Radio Networks (2/4)
  13. Chapter 2: FIREMAN: Foraging-Inspired Radio-Communication Energy Management for Green Multi-Radio Networks (3/4)
  14. Chapter 2: FIREMAN: Foraging-Inspired Radio-Communication Energy Management for Green Multi-Radio Networks (4/4)
  15. Chapter 3: On the Design of Energy-Efficient Wireless Access Networks: A Cross-Layer Approach (1/3)
  16. Chapter 3: On the Design of Energy-Efficient Wireless Access Networks: A Cross-Layer Approach (2/3)
  17. Chapter 3: On the Design of Energy-Efficient Wireless Access Networks: A Cross-Layer Approach (3/3)
  18. Chapter 4: Green Home Network Based on an Overlay Energy Control Network (1/4)
  19. Chapter 4: Green Home Network Based on an Overlay Energy Control Network (2/4)
  20. Chapter 4: Green Home Network Based on an Overlay Energy Control Network (3/4)
  21. Chapter 4: Green Home Network Based on an Overlay Energy Control Network (4/4)
  22. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (1/8)
  23. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (2/8)
  24. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (3/8)
  25. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (4/8)
  26. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (5/8)
  27. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (6/8)
  28. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (7/8)
  29. Chapter 5: Intelligent Future Wireless Networks for Energy Efficiency: Overall Analysis and Standardization Activities (8/8)
  30. Chapter 6: Green Network Security for Ad Hoc and Sensor Networks (1/5)
  31. Chapter 6: Green Network Security for Ad Hoc and Sensor Networks (2/5)
  32. Chapter 6: Green Network Security for Ad Hoc and Sensor Networks (3/5)
  33. Chapter 6: Green Network Security for Ad Hoc and Sensor Networks (4/5)
  34. Chapter 6: Green Network Security for Ad Hoc and Sensor Networks (5/5)
  35. Chapter 7: Interplay between Cooperative Device-to-Device Communications and Green LTE Cellular Networks (1/5)
  36. Chapter 7: Interplay between Cooperative Device-to-Device Communications and Green LTE Cellular Networks (2/5)
  37. Chapter 7: Interplay between Cooperative Device-to-Device Communications and Green LTE Cellular Networks (3/5)
  38. Chapter 7: Interplay between Cooperative Device-to-Device Communications and Green LTE Cellular Networks (4/5)
  39. Chapter 7: Interplay between Cooperative Device-to-Device Communications and Green LTE Cellular Networks (5/5)
  40. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (1/10)
  41. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (2/10)
  42. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (3/10)
  43. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (4/10)
  44. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (5/10)
  45. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (6/10)
  46. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (7/10)
  47. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (8/10)
  48. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (9/10)
  49. Chapter 8: Interference-Limited Fixed Relaying-Aided Macrocellular CDMA Networks (10/10)
  50. Chapter 9: Green-Inspired Hybrid Base Transceiver Station Architecture with Joint FSO/RF Wireless Backhauling and Basic Access Signaling for Next-Generation Metrozones (1/6)
  51. Chapter 9: Green-Inspired Hybrid Base Transceiver Station Architecture with Joint FSO/RF Wireless Backhauling and Basic Access Signaling for Next-Generation Metrozones (2/6)
  52. Chapter 9: Green-Inspired Hybrid Base Transceiver Station Architecture with Joint FSO/RF Wireless Backhauling and Basic Access Signaling for Next-Generation Metrozones (3/6)
  53. Chapter 9: Green-Inspired Hybrid Base Transceiver Station Architecture with Joint FSO/RF Wireless Backhauling and Basic Access Signaling for Next-Generation Metrozones (4/6)
  54. Chapter 9: Green-Inspired Hybrid Base Transceiver Station Architecture with Joint FSO/RF Wireless Backhauling and Basic Access Signaling for Next-Generation Metrozones (5/6)
  55. Chapter 9: Green-Inspired Hybrid Base Transceiver Station Architecture with Joint FSO/RF Wireless Backhauling and Basic Access Signaling for Next-Generation Metrozones (6/6)
  56. Chapter 10: Green Heterogeneous Small-Cell Networks (1/6)
  57. Chapter 10: Green Heterogeneous Small-Cell Networks (2/6)
  58. Chapter 10: Green Heterogeneous Small-Cell Networks (3/6)
  59. Chapter 10: Green Heterogeneous Small-Cell Networks (4/6)
  60. Chapter 10: Green Heterogeneous Small-Cell Networks (5/6)
  61. Chapter 10: Green Heterogeneous Small-Cell Networks (6/6)
  62. Chapter 11: Normalized Knowledge Integration to Distribute Intelligent Network Management in Power Utilities (1/5)
  63. Chapter 11: Normalized Knowledge Integration to Distribute Intelligent Network Management in Power Utilities (2/5)
  64. Chapter 11: Normalized Knowledge Integration to Distribute Intelligent Network Management in Power Utilities (3/5)
  65. Chapter 11: Normalized Knowledge Integration to Distribute Intelligent Network Management in Power Utilities (4/5)
  66. Chapter 11: Normalized Knowledge Integration to Distribute Intelligent Network Management in Power Utilities (5/5)
  67. Chapter 12: Smart Grid Energy Procurement for Green LTE Cellular Networks (1/6)
  68. Chapter 12: Smart Grid Energy Procurement for Green LTE Cellular Networks (2/6)
  69. Chapter 12: Smart Grid Energy Procurement for Green LTE Cellular Networks (3/6)
  70. Chapter 12: Smart Grid Energy Procurement for Green LTE Cellular Networks (4/6)
  71. Chapter 12: Smart Grid Energy Procurement for Green LTE Cellular Networks (5/6)
  72. Chapter 12: Smart Grid Energy Procurement for Green LTE Cellular Networks (6/6)
  73. Chapter 13: Applications of Wireless Sensor and Actuator Networks in the Smart Grid: A Double Energy Conservation Challenge (1/4)
  74. Chapter 13: Applications of Wireless Sensor and Actuator Networks in the Smart Grid: A Double Energy Conservation Challenge (2/4)
  75. Chapter 13: Applications of Wireless Sensor and Actuator Networks in the Smart Grid: A Double Energy Conservation Challenge (3/4)
  76. Chapter 13: Applications of Wireless Sensor and Actuator Networks in the Smart Grid: A Double Energy Conservation Challenge (4/4)
  77. Chapter 14: Smart Grid Networking Protocols and Standards (1/5)
  78. Chapter 14: Smart Grid Networking Protocols and Standards (2/5)
  79. Chapter 14: Smart Grid Networking Protocols and Standards (3/5)
  80. Chapter 14: Smart Grid Networking Protocols and Standards (4/5)
  81. Chapter 14: Smart Grid Networking Protocols and Standards (5/5)
  82. Chapter 15: Towards Green Networks Using Optimized Network Device Configurations (1/4)
  83. Chapter 15: Towards Green Networks Using Optimized Network Device Configurations (2/4)
  84. Chapter 15: Towards Green Networks Using Optimized Network Device Configurations (3/4)
  85. Chapter 15: Towards Green Networks Using Optimized Network Device Configurations (4/4)
  86. Chapter 16: Greening Data Centers (1/5)
  87. Chapter 16: Greening Data Centers (2/5)
  88. Chapter 16: Greening Data Centers (3/5)
  89. Chapter 16: Greening Data Centers (4/5)
  90. Chapter 16: Greening Data Centers (5/5)
  91. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (1/8)
  92. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (2/8)
  93. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (3/8)
  94. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (4/8)
  95. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (5/8)
  96. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (6/8)
  97. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (7/8)
  98. Chapter 17: Energy Efficiency Improvement with the Innovative Flexible-Grid Optical Transport Network (8/8)
  99. Chapter 18: Energy Efficiency and Failure Recovery Mechanisms for Communication Networks (1/7)
  100. Chapter 18: Energy Efficiency and Failure Recovery Mechanisms for Communication Networks (2/7)
  101. Chapter 18: Energy Efficiency and Failure Recovery Mechanisms for Communication Networks (3/7)
  102. Chapter 18: Energy Efficiency and Failure Recovery Mechanisms for Communication Networks (4/7)
  103. Chapter 18: Energy Efficiency and Failure Recovery Mechanisms for Communication Networks (5/7)
  104. Chapter 18: Energy Efficiency and Failure Recovery Mechanisms for Communication Networks (6/7)
  105. Chapter 18: Energy Efficiency and Failure Recovery Mechanisms for Communication Networks (7/7)
  106. Back Cover

Product information

  • Title: Green Networking and Communications
  • Author(s): Shafiullah Khan, Jaime Lloret Mauri
  • Release date: October 2013
  • Publisher(s): CRC Press
  • ISBN: 9781466568754