This textbook presents basic programming techniques consistent with the MATLAB software package. It also discusses numerical and analytical concepts applicable to electrical engineering. The text contains many sample MATLAB programs that provide guidance for student completing the assigned projects. Case studies relate concepts presented in the chapters to engineering in practice. The chapters address such topics as Simulink, curve fitting, optimization, partial differential equations, laplace transforms, control systems, signal processing, differential equations, transcendental equations, and…mehr
This textbook presents basic programming techniques consistent with the MATLAB software package. It also discusses numerical and analytical concepts applicable to electrical engineering. The text contains many sample MATLAB programs that provide guidance for student completing the assigned projects. Case studies relate concepts presented in the chapters to engineering in practice. The chapters address such topics as Simulink, curve fitting, optimization, partial differential equations, laplace transforms, control systems, signal processing, differential equations, transcendental equations, and numerical integration. A complete solutions manual is available for qualified adopters.
Dr. William Bober received his B.S. degree in civil engineering from the City College of New York (CCNY), his M.S. degree in engineering science from Pratt Institute, and his Ph.D. degree in engineering science and aerospace engineering from Purdue University. At Purdue University, he was on a Ford Foundation Fellowship; he was assigned to teach one engineering course each semester. After receiving his Ph.D., he went to work as an associate engineering physicist in the Applied Mechanics Department at Cornell Aeronautical Laboratory in Buffalo, New York. After leaving Cornell Labs, he was employed as an associate professor in the Department of Mechanical Engineering at the Rochester Institute of Technology (RIT) for the following twelve years. After leaving RIT, he obtained employment at Florida Atlantic University (FAU) in the Department of Mechanical Engineering. More recently, he transferred to the Department of Civil Engineering at FAU. Dr. Andrew Stevens, P.E., received his bachelor's degree from Massachusetts Institute of Technology, his master's degree from the University of Pennsylvania, and his doctorate from Columbia University, all in electrical engineering. He did his Ph.D. thesis work at IBM Research in the area of integrated circuit design for high-speed optical networks. While at Columbia, he lectured a course in the core undergraduate curriculum and won the IEEE Solid-State Circuits Fellowship. He has held R&D positions at AT&T Bell Laboratories in the development of T-carrier multiplexer systems and at Argonne National Laboratory in the design of radiation-hardened integrated circuits for colliding beam detectors. Since 2001, he has been president of Electrical Science, an engineering consulting firm specializing in electrical hardware and software.
Inhaltsangabe
Numerical Methods for Electrical Engineers. MATLAB® Fundamentals. Matrices. Roots of Algebraic and Transcendental Equations. Numerical Integration. Numerical Integration of Ordinary Differential Equations. Laplace Transforms. Fourier Transforms and Signal Processing. Curve Fitting. Optimization. Simulink. Appendices. MATLAB® Function Index.
