Discrete Communication Systems

This is the first textbook which presents the theory of pure discrete communication systems and its relation to the existing theory of digital communication. It is written for undergraduate and graduate students, and for practicing engineers.

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Hlavní autor:	Berber, Stevan
Médium:	E-kniha
Jazyk:	angličtina
Vydáno:	United Kingdom Oxford University Press 2021 Oxford University Press, Incorporated
Vydání:	1
Edice:	Oxford Graduate Texts
Témata:	Applied physics Discrete-time systems Signal processing Signal processing-Statistical methods Telecommunication systems Telecommunication systems-Design and construction
ISBN:	0192605194, 9780192605191, 019886079X, 9780198860792
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Abstract	This is the first textbook which presents the theory of pure discrete communication systems and its relation to the existing theory of digital communication. It is written for undergraduate and graduate students, and for practicing engineers.
AbstractList	This is the first textbook which presents the theory of pure discrete communication systems and its relation to the existing theory of digital communication. It is written for undergraduate and graduate students, and for practicing engineers. This is the first textbook which presents the theory of pure discrete communication systems and its relation to the existing theory of digital and analog communications at a graduate level. Based on the orthogonality principles and theory of discrete time stochastic processes, a generic structure of communication systems, based on correlation demodulation and optimum detection, is developed and presented in the form of mathematical operators with precisely defined inputs and outputs and related functions. Based on this generic structure, the traditionally defined phase shift keying (PSK), frequency shift keying (FSK), quadrature amplitude modulation (QAM), orthogonal frequency division multiplexing (OFDM) and code division multiple access (CDMA) systems are deduced as its special cases. The main chapters, presenting the theory of communications, are supported by a set of supplementary chapters containing the theory of deterministic and stochastic signal processing, which makes the book a self-contained presentation of the subject. The book uses unified notation and unified terminology, which allows a clear distinction between deterministic and stochastic signals, power signals and energy signals, discrete time signals and processes and continuous time signals and processes, and an easy way of understanding the differences in defining the correlation functions, power and energy spectral densities, and amplitudes and power spectra of the mentioned signals and processes. In addition to solved examples in the text, about 300 solved problems are available to readers in the supplementary material that aim to enhance the understanding of the theory in the text. In addition, five research Projects are added to be used by lecturers or instructors that aim to enhance the understanding of theory and to establish its relation to the practice.
Author	Berber, Stevan
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Snippet	This is the first textbook which presents the theory of pure discrete communication systems and its relation to the existing theory of digital communication.... This is the first textbook which presents the theory of pure discrete communication systems and its relation to the existing theory of digital and analog...
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SubjectTerms	Applied physics Discrete-time systems Signal processing Signal processing-Statistical methods Telecommunication systems Telecommunication systems-Design and construction
TableOfContents	3.2.4 Types of Discrete-Time Stochastic Processes -- 3.3 The Stationarity of Discrete-Time Stochastic Processes -- 3.3.1 The Stationarity of One Discrete-Time Stochastic Process -- 3.3.2 Properties of the Autocorrelation Function -- 3.3.3 The Stationarity of Two Discrete-Time Stochastic Processes -- 3.4 Ergodic Processes -- 3.4.1 Ensemble Averages and Time Averages -- 3.4.2 Ergodic Processes -- 3.4.3 Estimate of the Mean across the Ensemble of Realizations of X(n) -- 3.4.4 Estimate of the Mean across a realization of X(n) -- 3.4.5 Estimate of the Mean of an Ergodic Process X(n) -- 3.4.6 Summary of Ergodic Stochastic Processes -- 3.5 The Frequency-Domain Representation of Discrete-Time Stochastic Processes -- 3.5.1 Continuous-Time Stochastic Processes in the Frequency Domain -- 3.5.2 Discrete-Time Stochastic Processes in the Frequency Domain -- 3.5.3 Cross-Spectrum Functions -- 3.6 Typical Stochastic Processes -- 3.6.1 Noise Processes -- 3.6.2 General Gaussian Noise Processes -- 3.6.3 Harmonic Processes -- 3.6.4 Stochastic Binary Processes -- 3.7 Linear Systems with Stationary Random Inputs -- 3.7.1 An LTI System with Stationary Random Inputs in the Time Domain -- 3.7.2 Frequency-Domain Analysis of an LTI System -- 3.8 Summary -- Problems -- 4 Noise Processes in Discrete Communication Systems -- 4.1 Gaussian Noise Processes in the Continuous-Time Domain -- 4.1.1 Continuous White Gaussian Noise Processes -- 4.1.2 The Entropy of White Gaussian Noise Processes -- 4.1.3 Truncated Gaussian Noise Processes -- 4.1.4 Concluding Notes on Gaussian Noise Processes -- 4.2 Gaussian Noise Processes in the Discrete-Time Domain -- 4.2.1 White Gaussian Noise Processes with Discrete-Time and Continuous-Valued Samples -- 4.2.2 Discrete-Time White Gaussian Noise Processes with Discrete-Valued Samples 5.8.1 Digital versus Discrete Communication Systems -- 5.8.2 Generic Structure of a Digital Communication System -- Appendix: Operation of a Correlator in the Presence of Discrete White Gaussian Noise -- 6: Digital Bandpass Modulation Methods -- 6.1 Introduction -- 6.2 Coherent Binary Phase-Shift Keying Systems -- 6.2.1 Operation of a Binary Phase-Shift Keying System -- 6.2.2 Transmitter Operation -- 6.2.2.1 Modulating Signal Presentation -- 6.2.2.2 Modulated Signals in Time and Frequency Domains -- 6.2.3 Receiver Operation -- 6.2.3.1 Correlation Demodulator Operation -- 6.2.3.2 Operation of the Optimum Detector, and Structure of the Receiver -- 6.2.3.3 Bit Error Probability Calculation -- 6.3 Quadriphase-Shift Keying -- 6.3.1 Operation of a Quadrature Phase-Shift Keying System -- 6.3.2 Transmitter Operation -- 6.3.2.1 Modulating Signals in Time and Frequency Domains -- 6.3.2.2 Modulated Signals in the Time Domain -- 6.3.2.3 Modulated Signals in the Frequency Domain -- 6.3.2.4 The Power Spectral Density of Signals in a Quadriphase-Shift Keying System -- 6.3.3 Receiver Operation -- 6.3.3.1 Operation of the Correlation Demodulator and the Optimum Detector -- 6.3.3.2 Bit Error Probability Calculation -- 6.3.3.3 Signal Analysis and Transceiver Structure in a Quadrature Phase-Shift Keying System -- 6.4 Coherent Binary Frequency-Shift Keying with a Continuous Phase -- 6.4.1 Operation of a Binary Frequency-Shift Keying System -- 6.4.2 Transmitter Operation -- 6.4.2.1 Modulating Signals in Time and Frequency Domains -- 6.4.2.2 Modulated Signals in the Time Domain and the Signal-Space Diagram -- 6.4.2.3 Modulating and Modulated Signals in Time and Frequency Domains -- 6.4.2.4 Modulated Signals in the Frequency Domain -- 6.4.3 Receiver Operation -- 6.4.3.1 Operation of a Correlation Demodulator -- 6.4.3.2 Operation of an Optimum Detector Cover -- Discrete Communication Systems -- Copyright -- Dedication -- Preface -- Acknowlegements -- Contents -- List of Symbols, Functions, Operators, and Abbreviations -- Symbols -- Greek and Cyrillic Symbols -- Defined Functions -- Operators -- Abbreviations -- 1: Introduction to Communication Systems -- 1.1 Communication Systems and Networks -- 1.2 Classification of Signals and Systems -- 1.2.1 Classification of Signals with Respect to Time and Value -- 1.2.2 Periodic and Symmetric Signals -- 1.2.3 Deterministic and Stochastic Signals -- 1.2.4 Classification of Signals with Respect to Power and Energy -- 1.2.5 Classification of Signals with Respect to Realizability -- 1.2.6 Classification of Systems -- 1.3 Conversions of Analogue and Digital Signals -- 1.3.1 Analogue-to-Digital Conversion -- 1.3.2 Digital-to-Analogue Conversion -- 1.3.3 Application of Signals in Digital and Discrete Communication Systems -- 2: Orthogonal Signals and the Orthogonalization Procedure -- 2.1 Introduction -- 2.2 Geometric Representation of Signals -- 2.2.1 Orthonormal Basis Functions -- 2.2.2 Vector Representation of Signals -- 2.3 The Gram-Schmidt Orthogonalization Procedure -- 2.4 Continuous-Time Orthogonal Signals -- 2.4.1 Continuous-Time Versus Discrete-Time Basis Signals -- 2.4.2 Orthonormal Signals -- 2.4.3 The Gram-Schmidt Orthogonalization Procedure -- 2.5 Orthogonal Signals in Code Division Multiple Access Communication Systems -- Problems -- 3: Discrete-Time Stochastic Processes -- 3.1 Definition and Analysis of Discrete-Time Stochastic Processes -- 3.1.1 Introduction -- 3.1.2 Definition of a Stochastic Process -- 3.1.3 Mathematical Analysis of Stochastic Processes -- 3.2 Statistical Properties of Stochastic Processes -- 3.2.1 First-Order Statistics -- 3.2.2 Second-Order Statistics -- 3.2.3 Higher-Order Statistics 4.2.3 White Gaussian Noise Processes with Quantized Samples in a Strictly Limited Interval -- 4.2.4 Band-Limited Continuous- and Discrete-Time Signals and Noise -- 4.3 Operation of a Baseband Noise Generator -- 4.3.1 Band-Limited Continuous-Time Noise Generators -- 4.3.2 Band-Limited Discrete-Time Noise Generators -- 4.3.3 Spectral Analysis of Continuous-Time Baseband Noise -- 4.3.4 Spectral Analysis of Discrete-Time Baseband Noise -- 4.4 Operation of a Bandpass Noise Generator -- 4.4.1 Ideal Bandpass Continuous-Time Gaussian Noise -- 4.4.2 Ideal Bandpass Discrete Gaussian Noise -- 4.4.3 Modulators and Demodulators of Ideal Bandpass Discrete Gaussian Noise -- 4.5 Practical Design of a Band-Limited Discrete-Time Noise Modulator -- 4.6 Design of an Ordinary Band-Limited Discrete-Time Noise Modulator -- Problems -- 5: Operation of a Discrete Communication System -- 5.1 Structure of a Discrete System -- 5.2 Operation of a Discrete Message Source -- 5.3 Operation of a Discrete Modulator -- 5.4 Additive White Gaussian Noise Channels in a Discrete-Time Domain -- 5.5 Correlation Demodulators -- 5.5.1 Operation of a Correlator -- 5.5.2 Statistical Characterization of Correlator Output -- 5.5.3 Signal Constellation -- 5.6 Optimum Detectors -- 5.6.1 The Maximum Likelihood Estimator of a Transmitted Signal -- 5.6.2 Application of the Maximum Likelihood Rule -- 5.6.3 Design of an Optimum Detector -- 5.6.4 Generic Structure of a Discrete Communication System -- 5.7 Multilevel Systems with a Binary Source -- 5.7.1 Transmitter Operation -- 5.7.2 Radio Frequency Blocks and Additive White Gaussian Noise Waveform Channels -- 5.7.3 Operation of a Bandpass Noise Generator -- 5.7.4 Intermediate-Frequency Optimum Receivers -- 5.7.5 Intermediate-Frequency Optimum Detectors -- 5.8 Operation of a Digital Communication System 6.4.3.3 Calculation of the Bit Error Probability -- 6.4.3.4 Design of a Transceiver for a Binary Frequency-Shift Keying Signal -- 6.5 M-ary Quadrature Amplitude Modulation -- 6.5.1 System Operation -- 6.5.2 Transmitter Operation -- 6.5.3 Receiver Operation -- Appendix A: Densities of the Correlation Variables X1 and X2 in a Quadrature Phase-Shift Keying System -- Appendix B: Derivatives of Density Functions for a Binary Frequency-Shift Keying System -- Appendix C: Precise Derivation of the Bit Error Probability for a Binary Frequency-Shift Keying System -- Appendix D: Power Spectral Density of a Quadrature Component in a Frequency-Shift Keying Signal -- Problems -- 7: Discrete Bandpass Modulation Methods -- 7.1 Introduction -- 7.2 Coherent Binary Phase-Shift Keying Systems -- 7.2.1 Operation of a Binary Phase-Shift Keying System -- 7.2.2 Transmitter Operation -- 7.2.2.1 Presentation of a Modulating Signal -- 7.2.2.2 Modulated Signals in Time and Frequency Domains -- 7.2.2.3 The Power Spectral Density of Binary Phase-Shift Keying Modulated Signals -- 7.2.3 Receiver Operation -- 7.2.3.1 Operation of a Correlation Demodulator -- 7.2.3.2 Operation of an Optimum Detector, and Structure of a Receiver -- 7.2.3.3 Calculation of the Bit Error Probability -- 7.3 Quadriphase-Shift Keying -- 7.3.1 System Operation -- 7.3.2 Transmitter Operation -- 7.3.2.1 Modulating Signals in Time and Frequency Domains -- 7.3.2.2 Modulated Signals in the Time Domain -- 7.3.2.3 Modulated Signals in the Frequency Domain -- 7.3.3 Receiver Operation -- 7.3.3.1 Operation of the Correlation Demodulator and the Optimum Detector -- 7.3.3.2 Calculation of the Bit Error Probability -- 7.3.3.3 Signal Analysis and Structure of the Transceiver in a Quadriphase-Shift Keying System -- 7.4 Coherent Binary Frequency-Shift Keying with Continuous Phase 7.4.1 Operation of a Binary Frequency-Shift Keying System
Title	Discrete Communication Systems
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