In this paper, we present a framework for an adaptive and risk-aware robot motion planning and control, and discuss how such a framework could handle uncertainty in hu-man workers ’ actions and robot localization. We build on our prior investigation, where we describe how uncertainty in human actions can be modeled using the entropy rate in a Markov Decision Process. We then describe how we can incorporate this model of uncer-tainty into simulations of a simple collaborative system, involving one human worker and one robotic assistant, to produce risk-aware robot motions. Next, we highlight the difficul-ties associated with localization uncertainty in a space environment and describe how we can incorporate this uncertainty into an adaptive ...
Human awareness in robot motion planning is crucial for seamless interaction with humans. Many exist...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
In this letter, we propose an adaptive risk-based replanning strategy in the context of multirobot t...
In this paper, we present a framework for an adaptive and risk-aware robot motion planning and contr...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
In the context of human-robot collaboration in close proximity, safety and comfort are the two impor...
Abstract--New industrial robotic systems that operate in the same physical space as people highlight...
In an increasing demand for human-robot collaboration systems, the need for safe robots is crucial. ...
Human-robot interactions (HRI) have been recognized to be a key element of future robots in many app...
In this paper, we propose a risk-based coordination method for the Multi-Robot Task Allocation (MRTA...
Recent progress in robotic systems has significantly advanced robot functional capabilities, includi...
Even as future robots grow in intelligence and autonomy, they may continue to face uncertainty in th...
Objective: The objective of this work was to examine human response to motion-level robot adaptation...
This paper presents a strategy for planning robot motions in dynamic, uncertain environments (DUEs)....
International audienceIn human-robot collaboration, the objectives of the human are often unknown to...
Human awareness in robot motion planning is crucial for seamless interaction with humans. Many exist...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
In this letter, we propose an adaptive risk-based replanning strategy in the context of multirobot t...
In this paper, we present a framework for an adaptive and risk-aware robot motion planning and contr...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
In the context of human-robot collaboration in close proximity, safety and comfort are the two impor...
Abstract--New industrial robotic systems that operate in the same physical space as people highlight...
In an increasing demand for human-robot collaboration systems, the need for safe robots is crucial. ...
Human-robot interactions (HRI) have been recognized to be a key element of future robots in many app...
In this paper, we propose a risk-based coordination method for the Multi-Robot Task Allocation (MRTA...
Recent progress in robotic systems has significantly advanced robot functional capabilities, includi...
Even as future robots grow in intelligence and autonomy, they may continue to face uncertainty in th...
Objective: The objective of this work was to examine human response to motion-level robot adaptation...
This paper presents a strategy for planning robot motions in dynamic, uncertain environments (DUEs)....
International audienceIn human-robot collaboration, the objectives of the human are often unknown to...
Human awareness in robot motion planning is crucial for seamless interaction with humans. Many exist...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
In this letter, we propose an adaptive risk-based replanning strategy in the context of multirobot t...