Discrete-Time Inverse Optimal Control for Nonlinear Systems

Nonfiction, Science & Nature, Technology, Electricity, Electronics
Cover of the book Discrete-Time Inverse Optimal Control for Nonlinear Systems by Edgar N. Sanchez, Fernando Ornelas-Tellez, CRC Press
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Edgar N. Sanchez, Fernando Ornelas-Tellez ISBN: 9781351831802
Publisher: CRC Press Publication: December 19, 2017
Imprint: CRC Press Language: English
Author: Edgar N. Sanchez, Fernando Ornelas-Tellez
ISBN: 9781351831802
Publisher: CRC Press
Publication: December 19, 2017
Imprint: CRC Press
Language: English

Discrete-Time Inverse Optimal Control for Nonlinear Systems proposes a novel inverse optimal control scheme for stabilization and trajectory tracking of discrete-time nonlinear systems. This avoids the need to solve the associated Hamilton-Jacobi-Bellman equation and minimizes a cost functional, resulting in a more efficient controller.

Design More Efficient Controllers for Stabilization and Trajectory Tracking of Discrete-Time Nonlinear Systems

The book presents two approaches for controller synthesis: the first based on passivity theory and the second on a control Lyapunov function (CLF). The synthesized discrete-time optimal controller can be directly implemented in real-time systems. The book also proposes the use of recurrent neural networks to model discrete-time nonlinear systems. Combined with the inverse optimal control approach, such models constitute a powerful tool to deal with uncertainties such as unmodeled dynamics and disturbances.

Learn from Simulations and an In-Depth Case Study

The authors include a variety of simulations to illustrate the effectiveness of the synthesized controllers for stabilization and trajectory tracking of discrete-time nonlinear systems. An in-depth case study applies the control schemes to glycemic control in patients with type 1 diabetes mellitus, to calculate the adequate insulin delivery rate required to prevent hyperglycemia and hypoglycemia levels.

The discrete-time optimal and robust control techniques proposed can be used in a range of industrial applications, from aerospace and energy to biomedical and electromechanical systems. Highlighting optimal and efficient control algorithms, this is a valuable resource for researchers, engineers, and students working in nonlinear system control.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

Discrete-Time Inverse Optimal Control for Nonlinear Systems proposes a novel inverse optimal control scheme for stabilization and trajectory tracking of discrete-time nonlinear systems. This avoids the need to solve the associated Hamilton-Jacobi-Bellman equation and minimizes a cost functional, resulting in a more efficient controller.

Design More Efficient Controllers for Stabilization and Trajectory Tracking of Discrete-Time Nonlinear Systems

The book presents two approaches for controller synthesis: the first based on passivity theory and the second on a control Lyapunov function (CLF). The synthesized discrete-time optimal controller can be directly implemented in real-time systems. The book also proposes the use of recurrent neural networks to model discrete-time nonlinear systems. Combined with the inverse optimal control approach, such models constitute a powerful tool to deal with uncertainties such as unmodeled dynamics and disturbances.

Learn from Simulations and an In-Depth Case Study

The authors include a variety of simulations to illustrate the effectiveness of the synthesized controllers for stabilization and trajectory tracking of discrete-time nonlinear systems. An in-depth case study applies the control schemes to glycemic control in patients with type 1 diabetes mellitus, to calculate the adequate insulin delivery rate required to prevent hyperglycemia and hypoglycemia levels.

The discrete-time optimal and robust control techniques proposed can be used in a range of industrial applications, from aerospace and energy to biomedical and electromechanical systems. Highlighting optimal and efficient control algorithms, this is a valuable resource for researchers, engineers, and students working in nonlinear system control.

More books from CRC Press

Cover of the book Security Opportunities in Nano Devices and Emerging Technologies by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Game Programming for Artists by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Autonomous Mobile Robots by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Optimal and Robust Control by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Partial Differential Equations by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Statistical Thermodynamics Of Surfaces, Interfaces, And Membranes by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Supercritical Fluid Technology (1991) by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Systems of Systems Engineering by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book The Coccidian Parasites of Rodents by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Essential Statistics for Medical Practice by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Handbook of Nutritional Supplements by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Engineering Science, 6th ed by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Optical Waves and Laser Beams in the Irregular Atmosphere by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Engineering for Sustainability by Edgar N. Sanchez, Fernando Ornelas-Tellez
Cover of the book Effective People by Edgar N. Sanchez, Fernando Ornelas-Tellez
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy