Learning Control
Applications in Robotics and Complex Dynamical Systems
Dan Zhang (Redaktør) ; Bin Wei (Redaktør)
Learning Control: Applications in Robotics and Complex Dynamical Systems provides a foundational understanding of control
theory while also introducing exciting cutting-edge technologies in the field of learning-based control. Les mer
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Paperback
Legg i
Vår pris:
2093,-
(Paperback)
Fri frakt!
Leveringstid: Sendes innen 7 virkedager
På grunn av Brexit-tilpasninger og tiltak for å begrense covid-19 kan det dessverre oppstå forsinket levering.
Learning Control: Applications in Robotics and Complex Dynamical Systems provides a foundational understanding of control
theory while also introducing exciting cutting-edge technologies in the field of learning-based control. State-of-the-art
techniques involving machine learning and artificial intelligence (AI) are covered, as are foundational control theories and
more established techniques such as adaptive learning control, reinforcement learning control, impedance control, and deep
reinforcement control. Each chapter includes case studies and real-world applications in robotics, AI, aircraft and other
vehicles and complex dynamical systems. Computational methods for control systems, particularly those used for developing
AI and other machine learning techniques, are also discussed at length.
A high-level design process for neural-network controls through a framework of human personalities
Cognitive load estimation for adaptive human-machine system automation
Comprehensive error analysis beyond system innovations in Kalman filtering
Nonlinear control
Deep learning approaches in face analysis
Finite multi-dimensional generalized Gamma Mixture Model Learning for feature selection
Variational learning of finite shifted scaled Dirichlet mixture models
From traditional to deep learning: Fault diagnosis for autonomous vehicles
Controlling satellites with reaction wheels
Vision dynamics-based learning control
Cognitive load estimation for adaptive human-machine system automation
Comprehensive error analysis beyond system innovations in Kalman filtering
Nonlinear control
Deep learning approaches in face analysis
Finite multi-dimensional generalized Gamma Mixture Model Learning for feature selection
Variational learning of finite shifted scaled Dirichlet mixture models
From traditional to deep learning: Fault diagnosis for autonomous vehicles
Controlling satellites with reaction wheels
Vision dynamics-based learning control
Dan Zhang is a Kaneff Professor and Tier 1 York Research Chair in Advanced Robotics and Mechatronics in the Department of
Mechanical Engineering of the Lassonde School of Engineering at York University, Toronoto, Canada. Previously he was Professor
and Canada Research Chair in Advanced Robotics and Automation, and he was a founding Chair of the Department of Automotive,
Mechanical, and Manufacturing Engineering with the Faculty of Engineering and Applied Science at University of Ontario Institute
of Technology. He is editor-in-chief for International Journal of Robotics Applications and Technologies, Associate editor
for the International Journal of Robotics and Automation (ACTA publisher), and guest editor on four other international journals.
He is the editor of 6 books related to mechatronics and robotics. Bin Wei is an Assistant Professor at Algoma University,
Ontario, Canada. He received his Ph.D. in robotics from University of Ontario Institute of Technology, Canada, in 2016. He
conducts research in the areas of robotics, control theory, and computational mechanics. He has co-edited 5 books on robotic
mechanics.