Automatic Modulation Classification Principles Algorithms and Applications 1st Edition by Zhechen Zhu, Asoke Nandi 1118906497 9781118906491
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ISBN 10: 1118906497
ISBN 13: 9781118906491
Author: Zhechen Zhu, Asoke K. Nandi
Automatic Modulation Classification (AMC) has been a key technology in many military, security, and civilian telecommunication applications for decades. In military and security applications, modulation often serves as another level of encryption; in modern civilian applications, multiple modulation types can be employed by a signal transmitter to control the data rate and link reliability. This book offers comprehensive documentation of AMC models, algorithms and implementations for successful modulation recognition. It provides an invaluable theoretical and numerical comparison of AMC algorithms, as well as guidance on state-of-the-art classification designs with specific military and civilian applications in mind. Key Features: Provides an important collection of AMC algorithms in five major categories, from likelihood-based classifiers and distribution-test-based classifiers to feature-based classifiers, machine learning assisted classifiers and blind modulation classifiers Lists detailed implementation for each algorithm based on a unified theoretical background and a comprehensive theoretical and numerical performance comparison Gives clear guidance for the design of specific automatic modulation classifiers for different practical applications in both civilian and military communication systems Includes a MATLAB toolbox on a companion website offering the implementation of a selection of methods discussed in the book
Table of contents:
1 Introduction
1.1 Background
1.2 Applications of AMC
1.3 Field Overview and Book Scope
1.4 Modulation and Communication System Basics
1.5 Conclusion
References
2 Signal Models for Modulation Classification
2.1 Introduction
2.2 Signal Model in AWGN Channel
2.3 Signal Models in Fading Channel
2.4 Signal Models in Non-Gaussian Channel
2.5 Conclusion
References
3 Likelihood-based Classifiers
3.1 Introduction
3.2 Maximum Likelihood Classifiers
3.3 Likelihood Ratio Test for Unknown Channel Parameters
3.4 Complexity Reduction
3.5 Conclusion
References
4 Distribution Test-based Classifier
4.1 Introduction
4.2 Kolmogorov–Smirnov Test Classifier
4.3 Cramer–Von Mises Test Classifier
4.4 Anderson–Darling Test Classifier
4.5 Optimized Distribution Sampling Test Classifier
4.6 Conclusion
References
5 Modulation Classification Features
5.1 Introduction
5.2 Signal Spectral-based Features
5.3 Wavelet Transform-based Features
5.4 High-order Statistics-based Features
5.5 Cyclostationary Analysis-based Features
5.6 Conclusion
References
6 Machine Learning for Modulation Classification
6.1 Introduction
6.2 K-Nearest Neighbour Classifier
6.3 Support Vector Machine Classifier
6.4 Logistic Regression for Feature Combination
6.5 Artificial Neural Network for Feature Combination
6.6 Genetic Algorithm for Feature Selection
6.7 Genetic Programming for Feature Selection and Combination
6.8 Conclusion
References
7 Blind Modulation Classification
7.1 Introduction
7.2 Expectation Maximization with Likelihood-based Classifier
7.3 Minimum Distance Centroid Estimation and Non-parametric Likelihood Classifier
7.4 Conclusion
References
8 Comparison of Modulation Classifiers
8.1 Introduction
8.2 System Requirements and Applicable Modulations
8.3 Classification Accuracy with Additive Noise
8.4 Classification Accuracy with Limited Signal Length
8.5 Classification Robustness against Phase Offset
8.6 Classification Robustness against Frequency Offset
8.7 Computational Complexity
8.8 Conclusion
References
9 Modulation Classification for Civilian Applications
9.1 Introduction
9.2 Modulation Classification for High-order Modulations
9.3 Modulation Classification for Link-adaptation Systems
9.4 Modulation Classification for MIMO Systems
9.5 Conclusion
References
10 Modulation Classifier Design for Military Applications
10.1 Introduction
10.2 Modulation Classifier with Unknown Modulation Pool
10.3 Modulation Classifier against Low Probability of Detection
10.4 Conclusion
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Tags: Zhechen Zhu, Asoke Nandi, Automatic, Modulation