QoS and Energy Management in Cognitive Radio Network Case Study Approach 1st Edition by Vishram Mishra, Jimson Mathew, Chiew Tong Lau 3319458601 9783319458601

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ISBN-10 :  3319458601 

ISBN-13 :  9783319458601

Author:  Vishram Mishra, Jimson Mathew, Chiew Tong Lau

This book covers the important aspects involved in making cognitive radio devices portable, mobile and green, while also extending their service life. At the same time, it presents a variety of established theories and practices concerning cognitive radio from academia and industry. Cognitive radio can be utilized as a backbone communication medium for wireless devices. To effectively achieve its commercial application, various aspects of quality of service and energy management need to be addressed. The topics covered in the book include energy management and quality of service provisioning at Layer 2 of the protocol stack from the perspectives of medium access control, spectrum selection, and self-coexistence for cognitive radio networks.

QoS and Energy Management in Cognitive Radio Network: Case Study Approach 1st Table of 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 Network
1.6.2 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 Management
2.1.4 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 Software
2.4.4 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 Behavior
4.1.1 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
4.4 Channel Selection in Stochastic Environment
4.4.1 System Model
4.4.2 Communication Segment
4.4.3 Spectrum Decision and Mapping of Packets
4.4.4 Load Balancing
4.4.5 Performance Analysis
4.5 Discussion
References
5 Case Study: Media Access in CRN Framework
5.1 System Model
5.1.1 Traffic Type
5.1.2 Channel Classification
5.1.3 Quiet Period Distribution
5.2 Hybrid Media Access Scheme
5.2.1 Arbitration Interframe Spaces
5.3 Initialization
5.4 Operation
5.4.1 Data Transfer on Reservation Based Channels
5.4.2 Data Transfer on Contention Based Channels
5.4.3 Data Transfer on a Foreign Channel
5.5 Power Saving Mode Operation
5.6 Broadcast and Multicast Operation
5.7 Performance Analysis
5.8 Infrastructure Mode Operation
5.9 Hidden Terminal Problem in Ad-hoc Mode
5.10 Discussion
References
6 Case Study: Energy Management in CRN Framework
6.1 System Model
6.2 Energy Aware Spectrum Allocation Scheme
6.2.1 Spectrum Decision
6.2.2 Bare Bandwidth Calculation
6.2.3 Admission Control
6.3 Performance Analysis
6.4 Discussion
References
7 Case Study: Self-coexistence in CRN Framework
7.1 Self-coexistence Procedure
7.1.1 Detection of Interfering Network
7.1.2 Recovery Process
7.2 Resource Relocation Based Self-coexistence
7.2.1 System Model
7.2.2 Graph Coloring
7.2.3 Optimization Problem Equivalent of ERMC
7.2.4 Relationship Between Optimization Problems
7.2.5 Self Coexistence Scheme with QoS Provisioning
7.2.6 Performance Analysis
7.2.7 Infrastructure Mode Operation
7.3 Resource Sharing Based Self-coexistence
7.3.1 System Model
7.3.2 Design and Working
7.3.3 Multiple CR Network Coexistence
7.3.4 Performance Analysis
7.4 Discussion

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Tags: QoS, Energy Management, Cognitive Radio, Network, Case Study Approach, Vishram Mishra, Jimson Mathew, Chiew Tong Lau