Add to ORKGIn order to formally validate cyber-physical systems, analytically tractable models of human control are desirable. While those models can be abstracted directly from human data, limitations on the amount and reliability of data can lead to overfitting and lack of generalization. We introduce a methodology for deriving formal models of human control of cyber-physical systems based on the use of cognitive models. Analytical models such as Markov models can be derived from an instance-based learning model of the task built using the ACT-R cognitive architecture. The approach is illustrated in the context of a robotic control task involving the choice of two options to control a robotic swarm. The cognitive model and various forms of the analy...
The danger of human operators devolving responsibility to machines and failing to detect cases where...
We have designed a Cognitive Systems Formalism (CSF) in order to simplify, analyze, compare and pred...
With a principled methodology for systematic design of human-robot decision-making teams as a motiva...
In order to formally validate cyber-physical systems, analytically tractable models of human control...
We present a method to validate a cognitive model, based on the cognitive architecture ACT-R, in dyn...
Models are among the most essential tools in robotics, such as kinematics and dynamics models of the...
A fundamental aspect of human-robot interaction is the ability to generate expectations for the deci...
This chapter focuses on the concept of cognitive control in robotics and how it is linked to decisio...
In the generation where progression in technology have propelled the research of human-machine intel...
Much of human decision making occurs in dynamic situations where decision makers have to control a n...
How can we facilitate human-robot teamwork? The teamwork literature has identified the need to know ...
In this paper, we study the model of human trust where an operator controls a robotic swarm remotely...
International audienceRobot manipulators, as general-purpose machines, can be used to perform variou...
The complexity of heterogeneous robotic teams and the domains in which they are deployed is fast out...
We present a human performance model of operator control of a simplified air traffic control task de...
The danger of human operators devolving responsibility to machines and failing to detect cases where...
We have designed a Cognitive Systems Formalism (CSF) in order to simplify, analyze, compare and pred...
With a principled methodology for systematic design of human-robot decision-making teams as a motiva...
In order to formally validate cyber-physical systems, analytically tractable models of human control...
We present a method to validate a cognitive model, based on the cognitive architecture ACT-R, in dyn...
Models are among the most essential tools in robotics, such as kinematics and dynamics models of the...
A fundamental aspect of human-robot interaction is the ability to generate expectations for the deci...
This chapter focuses on the concept of cognitive control in robotics and how it is linked to decisio...
In the generation where progression in technology have propelled the research of human-machine intel...
Much of human decision making occurs in dynamic situations where decision makers have to control a n...
How can we facilitate human-robot teamwork? The teamwork literature has identified the need to know ...
In this paper, we study the model of human trust where an operator controls a robotic swarm remotely...
International audienceRobot manipulators, as general-purpose machines, can be used to perform variou...
The complexity of heterogeneous robotic teams and the domains in which they are deployed is fast out...
We present a human performance model of operator control of a simplified air traffic control task de...
The danger of human operators devolving responsibility to machines and failing to detect cases where...
We have designed a Cognitive Systems Formalism (CSF) in order to simplify, analyze, compare and pred...
With a principled methodology for systematic design of human-robot decision-making teams as a motiva...