His scientific interests lie mostly in Control theory, Applied mathematics, Nonlinear system, Discrete mathematics and Linear system. His research in Control theory intersects with topics in Multiplication and Ball. He has researched Applied mathematics in several fields, including Subharmonic, Volterra series and Subharmonic function.
His study in Discrete mathematics is interdisciplinary in nature, drawing from both Transfer function, Singular value decomposition, Eigenvalues and eigenvectors and Matrix. His research in Linear system intersects with topics in State variable, Series, Calculus and Configuration space. His Calculus study incorporates themes from Logarithmic norm, Fourier transform, Lemma and Small-gain theorem.
His primary areas of study are Control theory, Nonlinear system, Stability, Linear system and Multivariable calculus. His Control theory study combines topics from a wide range of disciplines, such as Control engineering and Applied mathematics. His research integrates issues of Bounded function, Circle criterion and Differential equation in his study of Applied mathematics.
His work on Nonlinear control as part of general Nonlinear system research is frequently linked to Large class, thereby connecting diverse disciplines of science. His Stability research includes themes of Discrete mathematics, Transfer function, Mathematical analysis and Pure mathematics. His Linear system research incorporates elements of Calculus, Stability, Lemma and Robustness.
Charles A. Desoer spends much of his time researching Control engineering, Platoon, Control theory, Automatic control and Automotive engineering. His Control engineering study integrates concerns from other disciplines, such as Feedback control, MIMO, Industrial control system and Nyquist stability criterion. As a member of one scientific family, Charles A. Desoer mostly works in the field of Platoon, focusing on Vehicle dynamics and, on occasion, Control system, Nonlinear model and Linearization.
His research related to Adaptive control, Control theory, Nonlinear dynamical systems, Nonlinear system and Automation might be considered part of Control theory. The Nonlinear system study combines topics in areas such as Feed forward, Fixed-point theorem, Exponential function, Function and Convolution. Mathematical model is closely connected to Traffic flow in his research, which is encompassed under the umbrella topic of Automatic control.
Charles A. Desoer mainly investigates Platoon, Control engineering, Control theory, Vehicle dynamics and Automatic control. His Control engineering research incorporates themes from Dynamical systems theory, Controllability, Linear map and Robustness. He has included themes like Algebraic theory and Algebra in his Control theory study.
The study incorporates disciplines such as Control system and Linearization in addition to Vehicle dynamics. Within one scientific family, Charles A. Desoer focuses on topics pertaining to Traffic flow under Automatic control, and may sometimes address concerns connected to Mathematical model. His Automation research is multidisciplinary, incorporating elements of Simulation and Vehicle control.
M. Vidyasagar;C. A. Desoer
Charles A. Desoer;M. Vidyasagar
Lotfi Asker Zadeh;Charles A. Desoer
Frank M. Callier;Charles A. Desoer
S.E. Shladover;C.A. Desoer;J.K. Hedrick;M. Tomizuka
C. Desoer;Ruey-Wen Liu;J. Murray;R. Saeks
C. Desoer;Yung-Terng Wang
Shahab Sheikholeslam;Charles A. Desoer
M. J. Chen;C. A. Desoer
F. Callier;C. Desoer
Stephen Boyd;L. O. Chua;C. A. Desoer
Frank M. Callier;Charles A. Desoer
S. Sheikholeslam;C.A. Desoer
C. Desoer
C. A. Desoer;C. A. Lin
S. Sastry;C. Desoer
Stephen Boyd;C. A. Desoer
R.J. Minnichelli;J.J. Anagnost;C.A. Desoer
C. Desoer;J. Schulman
Charles A. Desoer
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