Concentrating on the development of basic concepts and system interpretation, Schetzen (electrical engineering, Northeastern U.) explains the mathematical background of linear systems from a functional viewpoint. After a general discussion of systems, the time-domain theory of continuous-time linear time-invariant (LTI) systems is developed. The Fourier transform and its inverse is explained as a precursor to an examination of the bilateral Laplace transform and its system interpretation. Then a new approach to the unilateral Laplace transform is presented by which the bilateral Laplace transform can be used in the transient analysis of LTI systems. Finally a discussion of the state-variable approach to systems analysis is provided. Annotation c. Book News, Inc., Portland, OR (booknews.com)
A new and practical approach to understanding system theory The modern development of engineering and science requires a deep understanding of the basic concepts of system theory. Approaching the subject from a system, rather than an application-oriented perspective, world-renowned system expert Martin Schetzen provides practicing engineers and scientists, as well as students, with a solid, clearly explained foundation in the fundamentals of linear time-invariant (continuous) system theory.
Developing linear systems from a functional viewpoint, the book is noteworthy for its presentation of:
The time-domain theory of continuous time linear time-invariant (LTI) systems System transfer function, gain, and phase-shift An original development of the Fourier transform, the unilateral and bilateral Laplace transforms, and their inverses from a system theory viewpoint Basic filter analysis and design techniques from the s-plane viewpoint Feedback systems and their stability, interconnected systems, and block diagram reduction The state-variable approach to system analysis and its advantages for certain problems
Taking an original, highly useful approach to system theory, Linear Time-Invariant Systems lays a solid foundation for further study of system modeling, control theory, filter theory, discrete system theory, state-variable theory, and other subjects requiring a system viewpoint.
An Instructor's Manual presenting detailed solutions to all the problems in the book is available upon request from the Wiley Makerting Department.
