Mathematical human control models are widely used in tuning manual control systems and understanding human performance. Human behavior is commonly described using linear time-invariant models, averaging-out all non-linear and time-varying effects, which are gathered into the remnant. These models are limited in their capability to capture particular tracking strategies that an experienced subject may learn to use. In this paper, we consider manual control from a different perspective, namely through investigating the probability densities of the tracking error for different regions of the target signal amplitude. Results show that distinct strategies become apparent for compensatory, pursuit and preview tracking tasks. Effects of these stra...
In many practical control tasks, human controllers (HC) can preview the trajectory they must follow ...
A theory of manual adaptive control requires an understanding of the mechanisms by which human opera...
Cyberneticists develop mathematical human control models which are used to tune manual control syste...
Mathematical human control models are widely used in tuning manual control systems and understanding...
The 1960s crossover model is widely applied to quantitatively predict a human controller's (HC's) ma...
Mathematical control models are widely used in tuning manual control systems and understanding human...
Mathematical control models are widely used in tuning manual control systems and understanding human...
In the manual control of a dynamic system, the human controller (HC) often follows a visible and pre...
The human in manual control of a dynamical system can use both feedback and feedforward control stra...
This paper investigates the modeling of humanmanual control behavior for pursuit tracking tasks in w...
This paper investigates how humans use a previewed target trajectory for control in tracking tasks w...
The introduction of ever-advancing automatic control systems is rapidly changing traditional manual ...
In manual control tasks, preview of the target trajectory ahead is often limited by poor lighting, o...
Improved understanding of human adaptation can be used to design better (semi-)automated systems tha...
This paper presents the results of an experiment that was performed to verify the 'supervisory contr...
In many practical control tasks, human controllers (HC) can preview the trajectory they must follow ...
A theory of manual adaptive control requires an understanding of the mechanisms by which human opera...
Cyberneticists develop mathematical human control models which are used to tune manual control syste...
Mathematical human control models are widely used in tuning manual control systems and understanding...
The 1960s crossover model is widely applied to quantitatively predict a human controller's (HC's) ma...
Mathematical control models are widely used in tuning manual control systems and understanding human...
Mathematical control models are widely used in tuning manual control systems and understanding human...
In the manual control of a dynamic system, the human controller (HC) often follows a visible and pre...
The human in manual control of a dynamical system can use both feedback and feedforward control stra...
This paper investigates the modeling of humanmanual control behavior for pursuit tracking tasks in w...
This paper investigates how humans use a previewed target trajectory for control in tracking tasks w...
The introduction of ever-advancing automatic control systems is rapidly changing traditional manual ...
In manual control tasks, preview of the target trajectory ahead is often limited by poor lighting, o...
Improved understanding of human adaptation can be used to design better (semi-)automated systems tha...
This paper presents the results of an experiment that was performed to verify the 'supervisory contr...
In many practical control tasks, human controllers (HC) can preview the trajectory they must follow ...
A theory of manual adaptive control requires an understanding of the mechanisms by which human opera...
Cyberneticists develop mathematical human control models which are used to tune manual control syste...