
Dynamics and Optimal Control of Road Vehicles uniquely offers a unified treatment of tyre, car and motorcycle dynamics, and the application of nonlinear optimal control to vehicle-related problems within a single book. This is a comprehensive and accessible text that emphasises the theoretical aspects of vehicular modelling and control. The book focuses on two major elements. The first is classical mechanics and its use in building vehicle and tyre dynamics models. The second focus is nonlinear optimal control, which is used to solve a range of minimum-time and minimum-fuel, as well as track curvature reconstruction problems. As is known classically, all of this material is bound together by the calculus of variations and stationary principles. The treatment of this material is supplemented with a number of examples that were designed to highlight obscurities and subtleties in the theory.
This text investigates the integration of classical mechanics and nonlinear optimal control to address complex problems in road vehicle dynamics. Authors D. J. N. Limebeer and Matteo Massaro utilize their expertise in control engineering to provide a unified mathematical framework for modeling tyre, car, and motorcycle behavior. The book argues that the calculus of variations and stationary principles serve as the foundational link between vehicle modeling and the optimization of performance metrics such as time and fuel consumption.
What You Will Find
Scope Limits
Experts identify this as a rigorous academic resource suitable for advanced students and researchers in control engineering. Readers frequently note the high level of mathematical density and the technical precision required to fully engage with the presented control theories.
Page Count:
480
Publication Date:
2018-01-01
Publisher:
OUP Oxford
ISBN-10:
0192559818
ISBN-13:
9780192559814
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