Improved understanding of human adaptation can be used to design better (semi-)automated systems that can support the human controller when task characteristics suddenly change. This paper evaluates the effectiveness of a model-based adaptive control technique, Model Reference Adaptive Control (MRAC), for describing the adaptive control policy used by human operators while controlling a time-varying system in a pursuit-tracking task. Ten participants took part in an experiment in which they controlled a time-varying system whose dynamics changed twice between approximate single and double integrator dynamics, and vice versa. Our proposed MRAC controller is composed of a feedforward and a feedback controller and an internal reference model t...
The increasing importance of machine learning in manipulator control is reviewed from two main persp...
Control-theoretic modeling of the human operator dynamic behavior in manual control tasks has a long...
Model reference adaptive control (MRAC) offers mathematical and design tools to effectively cope wit...
An improved understanding of pilot’s control behavior adaptations in response to sudden changes in t...
This paper presents the results of an experiment that was performed to verify the 'supervisory contr...
In the manual control of a dynamic system, the human controller (HC) often follows a visible and pre...
Cyberneticists develop mathematical human control models which are used to tune manual control syste...
Model reference adaptive control (MRAC) offers mathematical and design tools to effectively cope wit...
Mathematical human control models are widely used in tuning manual control systems and understanding...
By using the concept of on-line goal adaptation, we develop a new paradigm of performance shaping in...
a b s t r a c t By using the concept of on-line goal adaptation, we develop a new paradigm of perfor...
Abstract. An adaptive control scheme for mechanical manipulators is proposed. The control loop essen...
A theory of manual adaptive control requires an understanding of the mechanisms by which human opera...
Model Reference Adaptive Control (MRAC) is a widely studied adaptive control methodology that aims t...
Abstract—A nonlinear generalization of the Adaptive Model Theory, nAMT, is compared with human open-...
The increasing importance of machine learning in manipulator control is reviewed from two main persp...
Control-theoretic modeling of the human operator dynamic behavior in manual control tasks has a long...
Model reference adaptive control (MRAC) offers mathematical and design tools to effectively cope wit...
An improved understanding of pilot’s control behavior adaptations in response to sudden changes in t...
This paper presents the results of an experiment that was performed to verify the 'supervisory contr...
In the manual control of a dynamic system, the human controller (HC) often follows a visible and pre...
Cyberneticists develop mathematical human control models which are used to tune manual control syste...
Model reference adaptive control (MRAC) offers mathematical and design tools to effectively cope wit...
Mathematical human control models are widely used in tuning manual control systems and understanding...
By using the concept of on-line goal adaptation, we develop a new paradigm of performance shaping in...
a b s t r a c t By using the concept of on-line goal adaptation, we develop a new paradigm of perfor...
Abstract. An adaptive control scheme for mechanical manipulators is proposed. The control loop essen...
A theory of manual adaptive control requires an understanding of the mechanisms by which human opera...
Model Reference Adaptive Control (MRAC) is a widely studied adaptive control methodology that aims t...
Abstract—A nonlinear generalization of the Adaptive Model Theory, nAMT, is compared with human open-...
The increasing importance of machine learning in manipulator control is reviewed from two main persp...
Control-theoretic modeling of the human operator dynamic behavior in manual control tasks has a long...
Model reference adaptive control (MRAC) offers mathematical and design tools to effectively cope wit...