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Energy efficiency in wireless networks [[electronic resource] /] / Oswald Jumira, Sherali Zeadally
| Energy efficiency in wireless networks [[electronic resource] /] / Oswald Jumira, Sherali Zeadally |
| Autore | Jumira Oswald |
| Pubbl/distr/stampa | London, : ISTE |
| Descrizione fisica | 1 online resource (118 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) | ZeadallySherali |
| Collana | FOCUS series in networks and telecommunications |
| Soggetto topico | Wireless communication systems - Energy consumption |
| ISBN |
1-118-57995-X
1-299-13990-6 1-118-57937-2 1-118-58001-X |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
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 5.4.2. Radiation-based energy harvesters |
| Record Nr. | UNINA-9910141493303321 |
Jumira Oswald
|
||
| London, : ISTE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Energy efficiency in wireless networks / / Oswald Jumira, Sherali Zeadally
| Energy efficiency in wireless networks / / Oswald Jumira, Sherali Zeadally |
| Autore | Jumira Oswald |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | London, : ISTE |
| Descrizione fisica | 1 online resource (118 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) | ZeadallySherali |
| Collana | FOCUS series in networks and telecommunications |
| Soggetto topico | Wireless communication systems - Energy consumption |
| ISBN |
9781118579954
111857995X 9781299139909 1299139906 9781118579374 1118579372 9781118580011 111858001X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
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 5.4.2. Radiation-based energy harvesters |
| Record Nr. | UNINA-9910818406103321 |
|
Jumira Oswald
|
||
| London, : ISTE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||