Newburyport, : Dover Publications, 2012

0-486-13689-2

1-62198-604-7

1 online resource (695 p.)

Dover Books on Electrical Engineering

MooreJohn B

621.382/2

Signal processing

Electric filters

Electrical & Computer Engineering

Engineering & Applied Sciences

Telecommunications

Inglese

Description based upon print version of record.

Title Page; Copyright Page; Table of Contents; PREFACE; CHAPTER 1 - INTRODUCTION; 1.1 FILTERING; 1.2 HISTORY OF SIGNAL FILTERING; 1.3 SUBJECT MATTER OF THIS BOOK; 1.4 OUTLINE OF THE BOOK; REFERENCES; CHAPTER 2 - FILTERING, LINEAR SYSTEMS, AND ESTIMATION; 2.1 SYSTEMS, NOISE, FILTERING, SMOOTHING, AND PREDICTION; 2.2 THE GAUSS-MARKOV DISCRETE-TIME MODEL; 2.3 ESTIMATION CRITERIA; REFERENCES; CHAPTER 3 - THE DISCRETE-TIME; 3.1 THE KALMAN FILTER; 3.2 BEST LINEAR ESTIMATOR PROPERTY OF THE KALMAN FILTER; 3.3 IDENTIFICATION AS A KALMAN FILTERING PROBLEM; 3.4 APPLICATION OF KALMAN FILTERS; REFERENCES

CHAPTER 4 - TIME-INVARIANT FILTERS4.1 BACKGROUND TO TIME INVARIANCE OF THE FILTER; 4.2 STABILITY PROPERTIES OF LINEAR, DISCRETE-TIME SYSTEMS; 4.3 STATIONARY BEHAVIOUR OF LINEAR SYSTEMS; 4.4 TIME INVARIANCE AND ASYMPTOTIC STABILITY OF THE FILTER; 4.5 FREQUENCY DOMAIN FORMULAS; REFERENCES; CHAPTER 5 - KALMAN FILTER PROPERTIES; 5.1 INTRODUCTION; 5.2 MINIMUM VARIANCE AND LINEAR MINIMUM VARIANCE ESTIMATION;  ORTHOGONALITY AND PROJECTION; 5.3 THE INNOVATIONS SEQUENCE; 5.4 THE KALMAN FILTER; 5.5 TRUE FILTERED ESTIMATES AND THE

SIGNAL-TO-NOISE RATIO IMPROVEMENT PROPERTY

5.6 INVERSE PROBLEMS: WHEN IS A FILTER OPTIMAL?REFERENCES; CHAPTER 6 - COMPUTATIONAL ASPECTS; 6.1 SIGNAL MODEL ERRORS, FILTER DIVERGENCE, AND DATA SATURATION; 6.2 EXPONENTIAL DATA WEIGHTING-A FILTER WITH PRESCRIBED DEGREE OF STABILITY; 6.3 THE MATRIX INVERSION LEMMA AND THE INFORMATION FILTER; 6.4 SEQUENTIAL PROCESSING; 6.5 SQUARE ROOT FILTERING; 6.6 THE HIGH MEASUREMENT NOISE CASE; 6.7 CHANDRASEKHAR-TYPE, DOUBLING, AND NONRECURSIVE ALGORITHMS; REFERENCES; CHAPTER 7 - SMOOTHING OF DISCRETE-TIME SIGNALS; 7.1 INTRODUCTION TO SMOOTHING; 7.2 FIXED-POINT SMOOTHING; 7.3 FIXED-LAG SMOOTHING

7.4 FIXED-INTERVAL SMOOTHINGREFERENCES; CHAPTER 8 - APPLICATIONS IN NONLINEAR FILTERING; 8.1 NONLINEAR FILTERING; 8.2 THE EXTENDED KALMAN FILTER; 8.3 A BOUND OPTIMAL FILTER; 8.4 GAUSSIAN SUM ESTIMATORS; REFERENCES; CHAPTER 9 - INNOVATIONS REPRESENTATIONS, SPECTRAL FACTORIZATION, WIENER AND LEVINSON FILTERING; 9.1 INTRODUCTION; 9.2 KALMAN FILTER DESIGN FROM COVARIANCE DATA; 9.3 INNOVATIONS REPRESENTATIONS WITH FINITE INITIAL TIME; 9.4 STATIONARY INNOVATIONS REPRESENTATIONS AND SPECTRAL FACTORIZATION; 9.5 WIENER FILTERING; 9.6 LEVINSON FILTERS; REFERENCES

CHAPTER 10 - PARAMETER IDENTIFICATION AND ADAPTIVE ESTIMATION10.1 ADAPTIVE ESTIMATION VIA PARALLEL PROCESSING; 10.2 ADAPTIVE ESTIMATION VIA EXTENDED LEAST SQUARES; REFERENCES; CHAPTER 11 - COLORED NOISE AND SUBOPTIMAL REDUCED ORDER FILTERS; 11.1 GENERAL APPROACHES TO DEALING WITH COLORED NOISE; 11.2 FILTER DESIGN WITH MARKOV OUTPUT NOISE; 11.3 FILTER DESIGN WITH SINGULAR OR NEAR-SINGULAR OUTPUT NOISE; 11.4 SUBOPTIMAL DESIGN GIVEN COLORED INPUT OR MEASUREMENT NOISE; 11.5 SUBOPTIMAL FILTER DESIGN BY MODEL ORDER REDUCTION; REFERENCES; APPENDIX A - BRIEF REVIEW OF RESULTS OF PROBABILITY THEORY

APPENDIX B - BRIEF REVIEW OF SOME RESULTS OF MATRIX THEORY

This graduate-level text augments and extends beyond undergraduate studies of signal processing, particularly in regard to communication systems and digital filtering theory. Vital for students in the fields of control and communications, its contents are also relevant to students in such diverse areas as statistics, economics, bioengineering, and operations research.Topics include filtering, linear systems, and estimation; the discrete-time Kalman filter; time-invariant filters; properties of Kalman filters; computational aspects; and smoothing of discrete-time signals. Additional subjects e