skip to content
Signal processing for cognitive radios Preview this item
ClosePreview this item
Checking...

Signal processing for cognitive radios

Author: Sudharman K Jayaweera
Publisher: Hoboken, New Jersey : Wiley, 2014.
Edition/Format:   eBook : Document : EnglishView all editions and formats
Summary:
"This book covers power electronics, in depth, by presenting the basic principles and application details, and it can be used both as a textbook and reference book. Introduces the specific type of CR that has gained the most research attention in recent years: the CR for Dynamic Spectrum Access (DSA). Provides signal processing solutions to each task by relating the tasks to materials covered in Part II. Specialized  Read more...
Rating:

(not yet rated) 0 with reviews - Be the first.

Subjects
More like this

 

Find a copy online

Links to this item

Find a copy in the library

&AllPage.SpinnerRetrieving; Finding libraries that hold this item...

Details

Genre/Form: Electronic books
Additional Physical Format: Print version:
Jayaweera, Sudharman K., 1972-
Signal processing for cognitive radios
Hoboken, New Jersey : John Wiley & Sons, Inc., 2014
(DLC) 2014020555
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Sudharman K Jayaweera
ISBN: 9781118986769 1118986768 9781118824849 1118824849 9781118824818 1118824814 1118824938 9781118824931
OCLC Number: 881387995
Notes: Includes index.
Description: 1 online resource.
Contents: PREFACE xv PART I INTRODUCTION TO COGNITIVE RADIOS 1 1 Introduction 3 1.1 Introduction, 3 1.2 Signal Processing and Cognitive Radios, 4 1.3 Software-Defined Radios, 6 1.3.1 Software-Defined Radio Platforms, 14 1.3.2 Software-Defined Radio Systems, 15 1.4 From Software-Defined Radios to Cognitive Radios, 19 1.4.1 The Spectrum Scarcity Problem, 19 1.4.2 Emergence of CRs, 21 1.5 What this Book is About, 22 1.6 Summary, 26 2 The Cognitive Radio 27 2.1 Introduction, 27 2.2 A Functional Model of a Cognitive Radio, 30 2.2.1 Spectrum Knowledge Acquisition (Spectrum Awareness), 30 2.2.2 Communications Decision-Making, 33 2.2.3 Learning in Cognitive Radios, 33 2.3 The Cognitive Radio Architecture, 35 2.3.1 Spectrum Sensing Region of a Cognitive Engine, 36 2.3.2 Radio Reconfiguration Region of a Cognitive Engine, 36 2.3.3 Learning Region of a Cognitive Engine, 37 2.3.4 Memory Region of a Cognitive Engine, 37 2.4 The Ideal Cognitive Radio, 38 2.5 Signal Processing Challenges in Cognitive Radios, 39 2.6 Summary, 40 3 Cognitive Radios and Dynamic Spectrum Sharing 42 3.1 Introduction, 42 3.2 Interference and Spectrum Opportunities, 46 3.3 Dynamic Spectrum Access, 50 3.4 Dynamic Spectrum Leasing, 54 3.5 Challenges in DSS Cognitive Radios, 55 3.6 Cognitive Radios and Future of Wireless Communications, 60 3.7 Summary, 61 PART II THEORETICAL FOUNDATIONS 65 4 Introduction to Detection Theory 67 4.1 Introduction, 67 4.2 Optimality Criteria: Bayesian versus Non-Bayesian, 71 4.2.1 The Bayesian Approach, 72 4.2.2 A Non-Bayesian Approach: Neyman Pearson Optimality Criterion, 73 4.3 Parametric Signal Detection Theory, 75 4.3.1 Bayesian Optimal Detection, 76 4.3.2 Neyman Pearson Optimal Detection, 82 4.3.3 Another Non-Bayesian Alternative: The Generalized Likelihood Ratio Test, 99 4.3.4 Parametric Signal Detection in Additive Noise, 103 4.4 Nonparametric Signal Detection Theory, 122 4.4.1 Signal Detection in Additive Zero-Median Noise: The Sign Test, 124 4.4.2 Signal Detection in Additive Symmetric Noise: The Rank Test, 125 4.4.3 Signal Detection in Additive Zero Median, Zero Mean, Finite-Variance Noise: The t-Test, 126 4.5 Summary, 127 5 Introduction to Estimation Theory 132 5.1 Introduction, 132 5.2 Random Parameter Estimation: Bayesian Estimation, 134 5.2.1 Minimum Mean-Squared Error Estimation, 134 5.2.2 MMSE Estimation of Vector Parameters, 135 5.2.3 Linear Minimum Mean-Squared Error Estimation, 138 5.2.4 Maximum A Posteriori Probability Estimation, 139 5.3 Nonrandom Parameter Estimation, 140 5.3.1 Theory of Minimum Variance Unbiased Estimation, 142 5.3.2 Best Linear Unbiased Estimator, 147 5.3.3 Maximum Likelihood Estimation, 152 5.3.4 Performance Bounds: Cramer-Rao Lower Bound, 154 5.4 Summary, 158 6 Power Spectrum Estimation 164 6.1 Introduction, 164 6.2 PSD Estimation of a Stationary Discrete-Time Signal, 168 6.2.1 Correlogram Method, 168 6.2.2 Periodogram Method, 170 6.2.3 Performance of the Periodogram PSD Estimate, 172 6.3 Blackman Tukey Estimator of the Power Spectrum, 177 6.4 Other PSD Estimators Based on Modified Periodograms, 181 6.4.1 Bartlett PSD Estimator, 181 6.4.2 Welch PSD Estimator, 183 6.5 PSD Estimation of Nonstationary Discrete-Time Signals, 186 6.5.1 Temporally Windowed Observations, 188 6.5.2 Temporal and Spectral Smoothing of PSD Estimates of Nonstationary Discrete-Time Signals, 189 6.5.3 DFT-Based PSD Computation, 191 6.6 Spectral Correlation of Cyclostationary Signals, 192 6.6.1 Spectral Correlation and Spectral Autocoherence, 196 6.6.2 Time-Averaged Spectral Correlation, 197 6.6.3 Estimation of Spectral Correlation, 198 6.7 Summary, 200 7 Markov Decision Processes 207 7.1 Introduction, 207 7.2 Markov Decission Processes, 209 7.3 Finite-Horizon MDPs, 212 7.3.1 Definitions, 212 7.3.2 Optimal Policies for MDPs, 216 7.4 Infinite-Horizon MDPs, 222 7.4.1 Stationary Optimal Policies for Infinite-Horizon MDPs, 224 7.4.2 Bellman-Optimality Equations, 227 7.5 Partially Observable Markov Decision Processes, 232 7.5.1 Definitions, 233 7.5.2 Policy Evaluation for a Finite-Horizon POMDP, 238 7.5.3 Optimality Equations for a Finite-Horizon POMDP, 241 7.5.4 Optimal Policy Computation for a Finite-Horizon POMDP, 242 7.5.5 Infinite-Horizon POMDPs, 257 7.6 Summary, 259 8 Bayesian Nonparametric Classification 269 8.1 Introduction, 269 8.2 K-Means Classification Algorithm, 274 8.3 X-Means Classification Algorithm, 276 8.4 Dirichlet Process Mixture Model, 278 8.4.1 Dirichlet Process, 278 8.4.2 Construction of the Dirichlet Process, 279 8.4.3 DPMM, 282 8.5 Bayesian Nonparametric Classification Based on the DPMM and the Gibbs Sampling, 283 8.5.1 DPMM-Based Classification of Scalar Observations, 287 8.5.2 DPMM-Based Classification of Multidimensional Gaussian Observations, 298 8.5.3 DPMM-Based Classification of Possibly Non-Gaussian Multidimensional Observations, 308 8.6 Summary, 315 PART III SIGNAL PROCESSING IN COGNITIVE RADIOS 321 9 Wideband Spectrum Sensing 323 9.1 Introduction, 323 9.2 Wideband Spectrum Sensing Problem, 325 9.3 Wideband Spectrum Scanning Problem, 326 9.4 Spectrum Segmentation and Subbanding, 328 9.5 Wideband Spectrum Sensing Receiver, 330 9.5.1 Homodyne Receiver Configuration, 332 9.5.2 Super Heterodyne Digital Receiver Configuration, 334 9.5.3 A/D Conversion and the Discrete-Time Received Signal Model, 335 9.6 Subband Selection Problem in Wideband Spectrum Sensing, 336 9.6.1 Subband Dynamics, 338 9.6.2 A POMDP Model for Subband Selection, 340 9.6.3 An Optimal Subband Selection Policy for Spectrum Sensing, 347 9.6.4 A Reduced-Complexity Optimal Sensing Decision-Making Algorithm with Independent Channels, 350 9.6.5 A Reduced Complexity Optimal Sensing Decision-Making Algorithm with Independent Subbands, 354 9.6.6 Optimal Myopic Sensing Decision Policies, 354 9.7 A Reduced Complexity Optimal Subband Selection Framework with an Alternative Reward Function, 355 9.7.1 A New Model for Subband Dynamics, 357 9.7.2 A Simplified Reward Function and a Reduced-Complexity Optimal Policy, 359 9.7.3 A Reduced Complexity Optimal Policy for Independent Subbands, 362 9.7.4 Optimal Myopic Policies with Reduced Dimensional Subband State Vectors, 363 9.8 Machine-Learning Aided Subband Selection Policies, 364 9.8.1 Q-Learning, 365 9.8.2 Q-Learning in a POMDP: A Q-Learning Algorithm for Subband Selection, 368 9.9 Summary, 372 10 Spectral Activity Detection inWideband Cognitive Radios 377 10.1 Introduction, 377 10.2 Optimal Wideband Spectral Activity Detection, 379 10.3 Wideband Spectral Activity Detection, 386 10.4 Wavelet Transform-Based Wideband Spectral Activity Detection, 392 10.4.1 Wavelet Transform, 394 10.4.2 Edge Detection with Wavelet Transform, 395 10.4.3 Spectral Activity Detection Based on Edge Detection, 397 10.5 Wideband Spectral Activity Detection in Non-Gaussian Noise, 398 10.5.1 Arbitrary but Known Noise Distribution, 399 10.5.2 Robust Spectral Activity Detection, 406 10.6 Wideband Spectral Activity Detection with Compressive Sampling, 413 10.6.1 Compressive Sampling, 415 10.6.2 Compressive Sensing of Wideband Spectrum, 419 10.7 Summary, 421 11 Signal Classification inWideband Cognitive Radios 429 11.1 Introduction, 429 11.2 Signal Classification Problem in a Wideband Cognitive Radio, 431 11.3 Feature Extraction for Signal Classification, 435 11.3.1 Carrier/Center Frequency, 435 11.3.2 Cyclostationary Features, 436 11.3.3 Modulation Type and Order Features, 441 11.4 A Signal Classification Architecture for a Wideband Cognitive Radio, 445 11.5 Bayesian Nonparametric Signal Classification, 447 11.6 Sequential Bayesian Nonparametric Signal Classification, 462 11.7 Summary, 469 12 Primary Signal Detection in DSA Cognitive Networks 472 12.1 Introduction, 472 12.2 Spectrum Sensing Problem in Dynamic Spectrum Sharing CR Networks, 475 12.3 Autonomous Spectrum Sensing for Dynamic Spectrum Sharing, 479 12.3.1 Secondary User Sensing Observations, 480 12.3.2 Channel-State (Idle/Busy) Decisions, 481 12.4 Limitations of Autonomous Spectrum Sensing, 489 12.5 Cooperative Spectrum Sensing for Dynamic Spectrum Sharing, 492 12.6 Cooperative Channel-State Detection, 495 12.6.1 Local Processing and Sensing Reports from Secondary Users, 498 12.6.2 Final Channel-State Decisions at the SSDC: Decision Fusion, 502 12.7 Summary, 516 13 Spectrum Decision-Making in DSA Cognitive Networks 519 13.1 Introduction, 519 13.2 Primary Channel Dynamic Model, 520 13.3 Sensing Decisions in DSS Networks with Autonomous Cognitive Radios, 522 13.3.1 Optimal Sensing Policy Determination, 525 13.3.2 Optimal Myopic Sensing Policy Determination, 530 13.4 Sensing Decisions in Cooperative DSS Networks, 533 13.4.1 Optimal SSDC Decisions for Independent Channel Dynamics, 537 13.4.2 Optimal Myopic Sensing Decisions at the SSDC with Independent Channel Dynamics, 541 13.5 Summary, 550 14 Dynamic Spectrum Leasing in Cognitive Radio Networks 553 14.1 Introduction, 553 14.2 DSL with Direct Rewards to Primary Users, 555 14.2.1 Interference at the Primary Receiver, 560 14.2.2 A Game Model for Dynamic Spectrum Leasing, 565 14.2.3 Nash Equilibria in Noncooperative Games, 570 14.2.4 Existence of a Nash Equilibrium in the DSL Game, 573 14.3 DSL Based on Asymmetric Cooperation with Primary Users, 587 14.3.1 A Primary Secondary Coexistence Model, 588 14.3.2 Asymmetric Cooperative Communications-Based DSL between Primary Users and a Centralized Secondary Network, 591 14.3.3 Asymmetric Cooperative Communications-Based DSL between Primary Users and Autonomous Cognitive Secondary Users, 604 14.4 Summary, 609 15 Cooperative Cognitive Communications 613 15.1 Introduction, 613 15.2 Cooperative Spectrum Sensing, 619 15.3 Cooperative Spectrum Sensing and Channel-Access Decisions, 621 15.4 Cooperative Communications Strategies in Cognitive Radio Networks, 624 15.5 Asymmetric Cooperative Relaying in DSA Cognitive Radios, 627 15.5.1 Secondary User Optimal Power Allocation for Asymmetric Cooperative Relaying, 629 15.5.2 Centralized Assignment of Cognitive Radios for Cooperation with Primary Users: An Ideal Approach, 635 15.5.3 Centralized Assignment of Cognitive Radios for Cooperation with Primary Users: A Realistic Approach, 640 15.6 Summary, 644 16 Machine Learning in Cognitive Radios 647 16.1 Introduction, 647 16.2 Artificial Neural Networks, 650 16.2.1 Learning Algorithms for LTUs, 651 16.2.2 Layered Neural Networks, 655 16.2.3 Learning in Layered Feed-Forward Networks: Back-Propagation Algorithm, 656 16.2.4 Neural Networks in Cognitive Radios, 662 16.3 Support Vector Machines, 664 16.3.1 Statistical Learning Theory, 665 16.3.2 Structural Risk Minimization with Support Vector Machines, 669 16.3.3 Linear Support Vector Machines, 670 16.3.4 Nonlinear Support Vector Machines, 674 16.3.5 Kernel Function Implementation of Support Vector Machines, 677 16.3.6 SVMs in Cognitive Radios, 679 16.4 Reinforcement Learning, 681 16.4.1 Temporal Difference Learning, 683 16.4.2 Q-Learning in a POMDP: Replicated Q-Learning, 684 16.4.3 Reinforcement Learning in Cognitive Radios, 686 16.5 Multiagent Learning, 688 16.5.1 Game-Theoretic Multiagent Learning, 691 16.5.2 Cooperative Multiagent Learning, 694 16.5.3 Multiagent Learning in Cognitive Radio Networks, 696 16.6 Summary, 698 Appendix A Nyquist Sampling Theorem 704 Appendix B A Collection of Useful Probability Distributions 711 B.1 Univariate Distributions, 711 B.2 Multivariate Distributions, 713 Appendix C Conjugate Priors 716 REFERENCES 721 INDEX 740
Responsibility: Sudharman K. Jayaweera.

Abstract:

This book examines signal processing techniques for cognitive radios. The book is divided into three parts: Part I, is an introduction to cognitive radios and presents a history of the cognitive  Read more...

Reviews

User-contributed reviews
Retrieving GoodReads reviews...
Retrieving DOGObooks reviews...

Tags

Be the first.
Confirm this request

You may have already requested this item. Please select Ok if you would like to proceed with this request anyway.

Linked Data


Primary Entity

<http://www.worldcat.org/oclc/881387995> # Signal processing for cognitive radios
    a schema:Book, schema:MediaObject, schema:CreativeWork ;
   library:oclcnum "881387995" ;
   library:placeOfPublication <http://id.loc.gov/vocabulary/countries/nju> ;
   schema:about <http://experiment.worldcat.org/entity/work/data/1901165797#Topic/cognitive_radio_networks> ; # Cognitive radio networks
   schema:about <http://dewey.info/class/621.3822/e23/> ;
   schema:about <http://experiment.worldcat.org/entity/work/data/1901165797#Topic/signal_processing> ; # Signal processing
   schema:about <http://experiment.worldcat.org/entity/work/data/1901165797#Topic/technology_&_engineering_telecommunications> ; # TECHNOLOGY & ENGINEERING / Telecommunications
   schema:bookFormat schema:EBook ;
   schema:creator <http://experiment.worldcat.org/entity/work/data/1901165797#Person/jayaweera_sudharman_k_1972> ; # Sudharman K. Jayaweera
   schema:datePublished "2014" ;
   schema:description ""This book covers power electronics, in depth, by presenting the basic principles and application details, and it can be used both as a textbook and reference book. Introduces the specific type of CR that has gained the most research attention in recent years: the CR for Dynamic Spectrum Access (DSA). Provides signal processing solutions to each task by relating the tasks to materials covered in Part II. Specialized chapters then discuss specific signal processing algorithms required for DSA and DSS cognitive radios "--"@en ;
   schema:exampleOfWork <http://worldcat.org/entity/work/id/1901165797> ;
   schema:genre "Electronic books"@en ;
   schema:inLanguage "en" ;
   schema:isSimilarTo <http://worldcat.org/entity/work/data/1901165797#CreativeWork/signal_processing_for_cognitive_radios> ;
   schema:name "Signal processing for cognitive radios"@en ;
   schema:productID "881387995" ;
   schema:url <http://public.eblib.com/choice/publicfullrecord.aspx?p=1865617> ;
   schema:url <http://onlinelibrary.wiley.com/book/10.1002/9781118824818> ;
   schema:url <http://rbdigital.oneclickdigital.com> ;
   schema:url <http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=957002> ;
   schema:url <http://ebookcentral.proquest.com/lib/ucm/detail.action?docID=1865617> ;
   schema:url <http://dx.doi.org/10.1002/9781118824818> ;
   schema:url <http://swb.eblib.com/patron/FullRecord.aspx?p=1865617> ;
   schema:url <http://catalogimages.wiley.com/images/db/jimages/9781118824931.jpg> ;
   schema:url <http://ebookcentral.proquest.com/lib/columbia/detail.action?docID=1865617> ;
   schema:url <http://iclibezp1.cc.ic.ac.uk/login?url=http://onlinelibrary.wiley.com/book/10.1002/9781118824818> ;
   schema:url <http://proquest.safaribooksonline.com/9781118986769> ;
   schema:workExample <http://worldcat.org/isbn/9781118986769> ;
   schema:workExample <http://worldcat.org/isbn/9781118824818> ;
   schema:workExample <http://worldcat.org/isbn/9781118824931> ;
   schema:workExample <http://worldcat.org/isbn/9781118824849> ;
   wdrs:describedby <http://www.worldcat.org/title/-/oclc/881387995> ;
    .


Related Entities

<http://experiment.worldcat.org/entity/work/data/1901165797#Person/jayaweera_sudharman_k_1972> # Sudharman K. Jayaweera
    a schema:Person ;
   schema:birthDate "1972" ;
   schema:familyName "Jayaweera" ;
   schema:givenName "Sudharman K." ;
   schema:name "Sudharman K. Jayaweera" ;
    .

<http://experiment.worldcat.org/entity/work/data/1901165797#Topic/cognitive_radio_networks> # Cognitive radio networks
    a schema:Intangible ;
   schema:name "Cognitive radio networks"@en ;
    .

<http://experiment.worldcat.org/entity/work/data/1901165797#Topic/technology_&_engineering_telecommunications> # TECHNOLOGY & ENGINEERING / Telecommunications
    a schema:Intangible ;
   schema:name "TECHNOLOGY & ENGINEERING / Telecommunications"@en ;
    .

<http://onlinelibrary.wiley.com/book/10.1002/9781118824818>
   rdfs:comment "URL des Erstveröffentlichers" ;
    .

<http://worldcat.org/entity/work/data/1901165797#CreativeWork/signal_processing_for_cognitive_radios>
    a schema:CreativeWork ;
   rdfs:label "Signal processing for cognitive radios" ;
   schema:description "Print version:" ;
   schema:isSimilarTo <http://www.worldcat.org/oclc/881387995> ; # Signal processing for cognitive radios
    .

<http://worldcat.org/isbn/9781118824818>
    a schema:ProductModel ;
   schema:isbn "1118824814" ;
   schema:isbn "9781118824818" ;
    .

<http://worldcat.org/isbn/9781118824849>
    a schema:ProductModel ;
   schema:description "Adobe PDF" ;
   schema:isbn "1118824849" ;
   schema:isbn "9781118824849" ;
    .

<http://worldcat.org/isbn/9781118824931>
    a schema:ProductModel ;
   schema:isbn "1118824938" ;
   schema:isbn "9781118824931" ;
    .

<http://worldcat.org/isbn/9781118986769>
    a schema:ProductModel ;
   schema:description "ePub" ;
   schema:isbn "1118986768" ;
   schema:isbn "9781118986769" ;
    .


Content-negotiable representations

Close Window

Please sign in to WorldCat 

Don't have an account? You can easily create a free account.