Spectrum access and management for cognitive radio networks
This book presents cutting-edge research contributions that address various aspects of network design, optimization, implementation, and application of cognitive radio technologies. It demonstrates how to make better utilization of the available spectrum, cognitive radios and spectrum access to achi...
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| Other Authors | |
|---|---|
| Format | Electronic eBook |
| Language | English |
| Published |
Singapore :
Springer,
[2016]
|
| Series | Signals and communication technology,
|
| Subjects | |
| Online Access | Full text |
| ISBN | 9789811022548 9789811022531 |
| ISSN | 1860-4862 1860-4870 |
| Physical Description | 1 online resource (ix, 286 pages) : illustrations (some color) |
Cover
Table of Contents:
- Preface; Contents; 1 Introduction; Introduction; Spectrum Allocation Policies; Static Spectrum Allocation; Dynamic Spectrum Allocation; Cognitive Radio Technology; Cognitive Network Architecture; Network Architecture; Network Heterogeneity; Spectrum Management in CRNs; Spectrum Sensing; Challenges in Spectrum Sensing; Spectrum Allocation and Sharing; Spectrum Mobility; CR Applications; Conclusion; References; Spectrum Sensing for Half and Full-Duplex Cognitive Radio; Introduction; Performance Analysis; Energy Detector; Autocorrelation Detector; Cyclostationary Detector.
- Half and Full Duplex Cognitive RadioWork Objectives; Approaches Based on Cumulative Power Spectral Density; Introduction to the Power Spectral Density; Cumulative Power Spectral Density-Based Detector; Proposed Cooperative Detectors; Performance Evaluation; Gaussian Channel; Sensing Time; Rayleigh Channel; Complexity Analysis; Robustness of Our Proposed Detectors Under Noise Uncertainty; Spectrum Sensing Based on Self Normalized CPSD; Spectrum Sensing for Full-Duplex Cognitive Radio; System Model; Residual Self Interference Effect; Numerical Results; Conclusion; References.
- 3 Dynamic Spectrum Access Algorithms Without Common Control ChannelsIntroduction for Dynamic Spectrum Access Algorithm; Background; A Channel Hopping System; Quorum System; Basic Theorems; Symmetric Available Channel Model; Homogeneous Role Algorithms; Asymmetric Available Channel Model; Heterogeneous Role Algorithms; Homogeneous Role Algorithms; Summary; References; Quantified Dynamic Spectrum Access Paradigm; Introduction; Motivation; MUSE: Characterizing and Quantifying the Use of Spectrum; How Is Spectrum Consumed?; System Model; MUSE: Definitions; Quantifying Spectrum Consumption.
- Quantifying a Spectrum Consumption SpaceCharacterizing and Quantifying Performance of the Spectrum Management Functions; MUSE: Illustration and Discussion; Quantification of a Spectrum Consumption Space; Quantification of a Spectrum-Management Space; Considerations While Applying MUSE; Applying MUSE: Maximizing the Use of Spectrum; Maximizing the Available Spectrum-Space; Maximizing the Exploitation of the Available Spectrum-Space; Dealing with RF-Environment Dynamicity; Quantified Dynamic Spectrum Access Paradigm; Primitives for Quantified Dynamic Spectrum Access.
- Defining and Regulating a Quantified Dynamic Spectrum-Access PolicyAn Example Spectrum Management Infrastructure for Quantified Dynamic Spectrum Sharing; Quantified Dynamic Spectrum Management; Towards Real-Time Quantified Dynamic Spectrum-Access; Estimating the Use of the Spectrum; Estimating the Transmitter Spectrum-Access Attributes; Characterizing the Propagation Environment; Estimating Spectrum Occupancy and Spectrum Opportunity; Illustration; Defining and Enforcing a Quantified Spectrum Access Policy; Benefits of the Quantified Dynamic Spectrum Sharing Paradigm.