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Energy Efficiency in Wireless Networks.

The last decade has witnessed an unprecedented development and growth in global wireless communications systems, technologies and network "traffic" generated over network infrastructures. This book presents state-of-the-art energy-efficient techniques, designs and implementations that pert...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Jumira, Oswald
Otros Autores: Zeadally, Sherali
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Wiley, 2013.
Edición:11th ed.
Colección:FOCUS Series.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Title Page; Contents; PREFACE; CHAPTER 1. ENERGY EFFICIENCY IN CELLULAR NETWORKS; 1.1. Overview of cellular communication networks; 1.2. Metrics for measuring energy efficiency in cellular wireless communication systems; 1.3. Energy efficiency in base stations; 1.4. Energy-efficient cellular network design; 1.5. Interference management and mitigation; 1.6. Enabling technologies; 1.6.1. Energy-efficient communication via cognitive radio; 1.6.2. Using cooperative relays to support energy-efficient communication; 1.6.2.1. Enabling energy-efficient communication via fixed relays.
  • 1.6.2.2. Communications in cellular networks via user cooperationCHAPTER 2. ENERGY EFFICIENCY IN WIRELESS AD HOC NETWORKS; 2.1. Overview of wireless ad hoc networks; 2.2. Metrics for measuring energy efficiency in wireless ad hoc networks; 2.3. Energy losses in wireless ad hoc networks; 2.4. Energy efficiency in wireless sensor networks; 2.4.1. Energy efficiency in wireless sensor networks; 2.5. Mobile ad hoc networks (MANETs); 2.5.1. Energy efficiency in mobile ad hoc networks; CHAPTER 3. ENERGY EFFICIENCY IN WIRELESS LOCAL AREA NETWORKS; 3.1. Overview of wireless local area networks.
  • 3.2. Energy consumption metrics for WLANs3.3. Energy efficiency in WLANs; 3.3.1. Physical layer-based energy-efficient schemes; 3.3.2. Medium access control (MAC) layer-based energy-efficient schemes; 3.3.3. Cross-layer-based energy-efficient schemes; 3.4. Energy efficiency strategies in IEEE 802.11n; CHAPTER 4. ENERGY HARVESTING IN WIRELESS SENSOR NETWORKS; 4.1. Energy harvesting; 4.1.1. The harvesting concept; 4.1.1.1. Universal energy-harvesting model A universal energy model is the link between the energy harvester and the WSN node [J; 4.2. Harvesting techniques.
  • 4.2.1. Mechanical energy sources4.2.2. Thermal energy sources; 4.2.3. Radiation energy sources; 4.2.4. Comparison of harvesting sources; 4.3. Energy harvesting storage devices; 4.4. Power management for EH-WSN; 4.4.1. Discussion on power management for energy harvesting systems; 4.5. Conclusion; CHAPTER 5. FUTURE CHALLENGES AND OPPORTUNITIES; 5.1. Energy efficiency in cellular networks; 5.1.1. Low-energy spectrum sensing; 5.1.2. Energy-aware medium access control and energy-efficient routing; 5.1.3. Energy-efficient resource management in heterogeneous cellular networks.
  • 5.1.4. Cross-layer design and optimization5.1.5. Energy considerations in practical deployments of cooperative and cognitive radio systems; 5.2. Energy efficiency in ad hoc networks; 5.2.1. Sampling techniques; 5.2.2. MAC protocols; 5.2.3. Routing; 5.2.4. Mobility challenges; 5.2.5. Cognitive radio technology applied in wireless ad hoc networks; 5.3. Energy efficiency in WLAN; 5.3.1. IEEE 802.11ac (gigabit Wi-Fi); 5.3.2. MIMO-based WLAN; 5.3.3. Super Wi-Fi (IEEE 802.22); 5.4. Energy harvesting in wireless sensor networks; 5.4.1. Challenges for energy harvesting in harsh conditions.