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QoS and Energy Management in Cognitive Radio Network : Case Study Approach.
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Cham :
Springer International Publishing,
2016.
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| Colección: | Signals and communication technology.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Preface; Contents; 1 Introduction; 1.1 Why This Book?; 1.2 Spectrum Regulation; 1.2.1 Licensed Spectrum; 1.2.2 Unlicensed Spectrum; 1.2.3 Open Spectrum; 1.3 Opportunistic Spectrum Usage; 1.4 Software Defined Radio and Cognitive Radio; 1.4.1 IEEE Groups Working on Spectrum Sharing; 1.4.2 Cognition Cycle; 1.4.3 Cognitive Engine and Framework; 1.4.4 Cognitive Radio Network; 1.5 Quality of Service (QoS); 1.5.1 QoS Provisioning for Latency Guarantee; 1.5.2 QoS Provisioning for Throughput Guarantee; 1.6 Channel Selection Techniques in Cognitive Radio Network.
- 1.6.1 Channel Selection in CR Based Infrastructure Network1.6.2 Channel Selection in CR Based Ad-hoc Network; 1.7 MAC Protocols for Cognitive Radio Networks; 1.7.1 Random Access Based MAC Scheme; 1.7.2 Time-Slotted Based MAC Scheme; 1.8 Self-coexistence in Cognitive Radio Networks; 1.8.1 Resource Relocation Based Self-coexistence; 1.8.2 Resource Sharing Based Self-coexistence; 1.9 Discussion; References; 2 Cognitive Radio Network- A Review; 2.1 Spectrum Management; 2.1.1 Ant Colony Optimization Based Spectrum Management; 2.1.2 Non-linear Optimization Based Spectrum Management.
- 2.1.3 Game Theory Based Spectrum Management2.1.4 Learning Automata Based Spectrum Selection; 2.1.5 Spectrum Selection in Varying Channel Bandwidth Environment; 2.2 Media Access Control; 2.2.1 QoS Aware Media Access Schemes; 2.2.2 High Throughput Media Access Schemes; 2.2.3 Self-coexistence Based MAC Protocol; 2.3 Energy Management; 2.3.1 Cooperative Sensing Based Energy Efficient Spectrum Sensing; 2.3.2 Non-cooperative Sensing Based Energy Efficient Spectrum Sensing; 2.4 Cognitive Radio Platforms; 2.4.1 From FPGAs to Software Defined Radio; 2.4.2 From Software Defined Radio to Cognitive Radio.
- 2.4.3 SDR Software2.4.4 WARPnet; 2.4.5 RTL-SDR; 2.5 Discussion; References; 3 QoS Provisioning and Energy Management Framework for CRN; 3.1 QoS Parameters; 3.1.1 Latency Versus Throughput; 3.1.2 Self-coexistence and Its Role in QoS; 3.1.3 Energy Management and QoS; 3.2 QoS Framework for Cognitive Radio Network; 3.3 Detailed Layer 2 QoS Provisioning Framework; 3.3.1 Mode of Operation; 3.3.2 Generic Protocol Stack; 3.4 Self Organization; 3.4.1 Channel Availability Model; 3.4.2 Quiet Periods; 3.5 Discussion; References; 4 Case Study: Spectrum Management in CRN Framework.
- 4.1 Spectrum Usage Behavior4.1.1 Deterministic Usage Behavior; 4.1.2 Stochastic Usage Behavior; 4.2 Reconfigurable Channel Selection; 4.3 Channel Selection in Deterministic Environment; 4.3.1 System Model; 4.3.2 Deterministic Learning with Spectrum Selection and Usage; 4.3.3 Minimal Channel Switch Requirement; 4.3.4 Maximum Throughput Requirement; 4.3.5 Intermediate Solution to Provide High Throughput Along with Minimal Channel Switch Requirement; 4.3.6 Complexity Analysis of Algorithms; 4.3.7 Spectrum Usage; 4.3.8 Performance Analysis; 4.3.9 Ad-hoc Mode Operation.