## Communication theory; transmission of waveforms and digital information |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Contents

INTRODUCTION | 1 |

DESCRIPTION OF SIGNALS | 9 |

PROBABILITY THEORY | 65 |

Copyright | |

10 other sections not shown

### Other editions - View all

### Common terms and phrases

amplitude modulation approximation arbitrary assume band-pass signal bandwidth bandwidth occupancy calculate carrier causal causal filter channel Chapter characteristic function coefficients components correlation function defined denote density function discussion emission equation estimate evaluate event points expression Figure Fourier transform frequency function g(t gaussian process gaussian random variables given by Eq impulse response input integral interval Laplace transform Let us consider linear filter linear model low-pass filter matrix mean mean-square error message process message signal methods modulated signal noise vector nonzero notation Note observation occurs optimum filter Parseval's theorem performance phase phase-lock loop Problem process X(t pulse modulation quantity quantization r.m.s. bandwidth random process reader referred region of convergence result Rx(t sample function sample point Show shown in Fig signal set signal-to-noise ratio spectrum stationary stationary process statistically independent synchronous demodulation theorem transfer function transmitted signal variance yields zero zero-mean