Physics-Generated AIs of Robust Nonlinear Filter and Control Designs for Complicated Man-Made Machines

AvBor-Sen Chen

E-bok
Engelska, 2026

2 942 kr

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Beskrivning

This book introduces a robust Hinfinity physics-generated AI-driven filter and controller, along with a nonlinear Luenberger observer model and a state estimation error dynamic model, to effectively address HJIEs for robust Hinfinity state estimation (filtering) and reference trajectory tracking control in nonlinear stochastic systems. Additionally, it presents a method for training deep neural networks (DNNs) using these models, alongside a physics-generated AI-driven observer-based reference tracking control scheme, with applications in the guidance and control of relevant systems.Key features: Provides theoretical analysis and detailed design procedure for physics-generated AI-driven Hinfinity or mixed H2/Hinfinity filter Applies physics-generated AI-driven robust Hinfinity or mixed H2/Hinfinity filter and reference tracking control schemes to the trajectory estimation and reference tracking control of man-made machines Introduces physics-generated AI-driven decentralized Hinfinity observer-based team formation tracking control of large-scale quadrotor UAVs, biped robots or LEO satellites Promulgates the idea of the forthcoming age of physics-generated AI in robot Describes robust physics-generated AI-driven filter and control schemes for complex man-made machines This book is aimed at graduate students and researchers in control science, signal processing and artificial intelligence.

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