Products in Electrical Engineering |
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 | Adaptive Control: Second Edition
by Karl J. Åström, Dr. Björn Wittenmark
Suitable for advanced undergraduates and graduate students, this overview introduces theoretical and practical aspects of adaptive control, with emphasis on deterministic and stochastic viewpoints. 1995 edition.
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 | Adaptive Control: Stability, Convergence and Robustness
by Shankar Sastry, Marc Bodson
Clear, conceptual presentation surveys major results, techniques of analysis, and research. Focuses chiefly on linear, continuous time, and single-input, single-output systems, including relevant algorithms, dynamic properties, and tools for analysis. 1989 edition.
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 | Adaptive Filtering Prediction and Control
by Graham C Goodwin, Kwai Sang Sin
This unified survey focuses on linear discrete-time systems and explores natural extensions to nonlinear systems. It emphasizes discrete-time systems, summarizing theoretical and practical aspects of a large class of adaptive algorithms. 1984 edition.
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 | Basic Electricity
by U.S. Bureau of Naval Personnel
Originally a training course; best nontechnical coverage. Topics include batteries, circuits, conductors, AC and DC, inductance and capacitance, generators, motors, transformers, amplifiers, etc. Many questions with answers. 349 illustrations. 1969 edition.
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 | Circuits, Matrices and Linear Vector Spaces
by Lawrence P. Huelsman
This high-level text explains the mathematics behind basic circuit theory. It covers matrix algebra, the basic theory of n-dimensional spaces, and applications to linear systems. Numerous problems. 1963 edition.
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 | Communication Nets: Stochastic Message Flow and Delay
by Leonard Kleinrock
This text develops a queuing theory model of communications nets. Its realistic assessment of factors involved in message flow will benefit those working with computers and other communications systems. 1964 edition.
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 | Complex Variables and the Laplace Transform for Engineers
by Wilbur R. LePage
Acclaimed text on engineering math for graduate students covers theory of complex variables, Cauchy-Riemann equations, Fourier and Laplace transform theory, Z-transform, and much more. Many excellent problems.
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 | Computer-Controlled Systems: Theory and Design, Third Edition
by Dr. Karl A Åström, Dr. Björn Wittenmark
This volume features computational tools that can be applied directly and are explained with simple calculations, plus an emphasis on control system principles and ideas. Includes worked examples, MATLAB macros, and solutions manual.
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 | Control System Design: An Introduction to State-Space Methods
by Bernard Friedland
Introduction to state-space methods covers feedback control; state-space representation of dynamic systems and dynamics of linear systems; frequency-domain analysis; controllability and observability; shaping the dynamic response; more. 1986 edition.
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 | Decentralized Control of Complex Systems
by Dragoslav D. Siljak
This book explores optimization, output feedback, manipulative power of graphs, overlapping decompositions and the underlying inclusion principle, and reliability design. An appendix provides efficient graph algorithms. 1991 edition.
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 | Digital Processing of Random Signals: Theory and Methods
by Boaz Porat
This excellent advanced text rigorously covers several topics. Geared toward students of electrical engineering, its material is sufficiently general to be applicable to other engineering fields. 1994 edition.
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 | Experimental Researches in Electricity
by Michael Faraday
The pioneer of electromagnetic induction discusses inquiries that led to his development of the first dynamo and his establishment of foundations of classical field theory. "Impressive." — Florida Scientist. 1914 edition.
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 | Feedback Control Theory
by John C. Doyle, Bruce A. Francis, Allen R. Tannenbaum
This excellent introduction to feedback control system design offers a theoretical approach that captures the essential issues and can be applied to a wide range of practical problems. 1992 edition.
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 | Inductance Calculations
by Frederick W Grover
This authoritative reference enables the design of virtually every type of inductor. It features a single simple formula for each type of inductor, together with tables containing essential numerical factors. 1946 edition.
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 | Introduction to Electromagnetic Engineering
by Roger E. Harrington
Based on circuit theory rather than on the classical force-relationship approach, this text uses the theory of electric circuits to provide a system of experiments. 1958 edition.
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 | An Introduction to Identification
by J. P. Norton
Suitable for advanced undergraduates and graduate students, this text covers the theoretical basis for mathematical modeling as well as a variety of identification algorithms and their applications. 1986 edition.
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 | Introduction to Stochastic Control Theory
by Karl J. Åström
Exploration of stochastic control theory in terms of analysis, parametric optimization, and optimal stochastic control. Limited to linear systems with quadratic criteria; covers discrete time and continuous time systems. 1970 edition.
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 | Lectures on Electrical Engineering, Vol. II
by Charles Proteus Steinmetz
Volume II of this three-volume series by the foremost pioneer in electrical engineering covers alternating current phenomena, electric discharges, waves and impulses, and transients in time. 1915–20 editions.
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 | Linear System Theory: The State Space Approach
by Lotfi A. Zadeh, Charles A. Desoer
Written by two pioneers in the field, this exploration of the state space approach focuses on problems of stability and control, plus connections between this approach and classical techniques. 1963 edition.
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