Languages
Li, Shuai.
Overview
Works: | 1 works in 5 publications in 1 languages |
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Titles
Competition-based neural networks with robotic applications
by:
Li, Shuai.; Jin, Long.; SpringerLink (Online service)
(Electronic resources)
Targeting the Calcineurin-NFAT Interaction by Solution NMR Spectroscopy.
by:
Li, Shuai.; Harvard University., Chemistry and Chemical Biology.
(Electronic resources)
Contact-Based State Estimation and Policy Learning for Robotic Manipulation Tasks.
by:
Li, Shuai.; Rensselaer Polytechnic Institute., Computer Science.
(Electronic resources)
Management and intelligent decision-making in complex systems = an optimization-driven approach /
by:
Li, Shuai.; SpringerLink (Online service); Khan, Ameer Hamza.; Cao, Xinwei.
(Electronic resources)
Neural networks for cooperative control of multiple robot arms
by:
Li, Shuai.; SpringerLink (Online service); Zhang, Yinyan.
(Electronic resources)
Machine behavior design and analysis = a consensus perspective /
by:
Li, Shuai.; SpringerLink (Online service); Zhang, Yinyan.
(Electronic resources)
Deep reinforcement learning with guaranteed performance = a Lyapunov-based approach /
by:
Li, Shuai.; SpringerLink (Online service); Zhang, Yinyan.; Zhou, Xuefeng.
(Electronic resources)
Distributed estimation and control with applications to multi-robotic systems.
by:
Li, Shuai.; Stevens Institute of Technology., Electrical.
(Electronic resources)
Subjects
Robots- Control systems.
Control, Robotics, Mechatronics.
System analysis.
Operations Research/Decision Theory.
Lyapunov stability.
Analytical chemistry.
Robotics.
Artificial Intelligence (incl. Robotics)
Control and Systems Theory.
Engineering, Computer.
Neural networks (Computer science)
Multiagent Systems.
Decision making- Mathematical models.
Engineering, Robotics.
Computational Intelligence.
Computational Science and Engineering.
Biochemistry.
Systems Theory, Control.
Engineering, Electronics and Electrical.
Engineering.
Simulation and Modeling.
Computer science.
Robotics and Automation.
Mathematical Models of Cognitive Processes and Neural Networks.
Artificial intelligence.
Control theory.
Multiagent systems.
Mathematical optimization.