Resource Management and Performance Analysis of Wireless Communication Networks

Resource Management and Performance Analysis of Wireless Communication Networks

Yue, Wuyi; Jin, Shunfu

Springer Verlag, Singapore

03/2021

466

Dura

Inglês

9789811577550

15 a 20 dias

904

Descrição não disponível.
Chapter 1. Introduction.- Part 1. Resource Management and Performance Analysis on Broadband Wireless Access Networks.- Chapter 2. Sleep Mode for Power Saving Class Type I.- Chapter 3. Sleep Mode for Power Saving Class Type II.- Chapter 4. Sleep Mode for Power Saving Class Type III.- Chapter 5. Bernoulli Arrival-Based Sleep Mode in WiMAX 2.- Chapter 6. Markovian Arrival-Based Sleep Mode in WiMAX 2.- Chapter 7. Two-Stage Vacation Queue-Based Active DRX Mechanism in LTE System.- Chapter 8. Multiple-Vacation Queue-Based Active DRX Mechanism in LTE System.- Part 2. Resource Management and Performance Analysis on Cognitive Radio Networks.- Chapter 9. Channel Aggregation Strategy with Perfect-Sensing Results.- Chapter 10. Spectrum Reservation Strategy with Retrial Feedback and Perfect-Sensing Results.- Chapter 11. Opportunistic Spectrum Access Mechanism with Imperfect Sensing Results.- Chapter 12. Mini-Slotted Spectrum Allocation Strategy with Imperfect Sensing Results.- Chapter 13. Channel Reservation Strategy with Imperfect Sensing Results.- Chapter 14. Energy Saving Strategy in CRNs based on a Priority Queue with Single Vacation.- Chapter 15. Energy Saving Strategy in CRNs based on a Priority Queue with Multiple Vacations.- Part 3. Resource Management and Performance Analysis on Cloud Computing.- Chapter 16. Speed Switch and Multiple-Sleep Mode.- Chapter 17. Virtual Machine Allocation Strategy.- Chapter 18. Clustered Virtual Machine Allocation Strategy.- Chapter 19. Pricing Policy for Registration Service.- Chapter 20. Energy-Efficient Task Scheduling Strategy.- Chapter 21. Energy-Efficient Virtual Machine Allocation Strategy
Resource Management;Energy Conservation;Performance Evaluation and System Optimization;Broad Access Networks;Cognitive Radio Networks;Cloud Computing;Sleep Mode;Dynamic Spectrum Allocation;VM Allocation;Queueing Theory