In order to take advantage of autonomous robotic systems, and yet ensure successful completion of all feasible tasks, we propose a mediation hierarchy in which an operator can interact at all system levels. Robotic systems are not robust in handling un-modeled events. Reactive behaviors may be able to guide the robot back into a modeled state and to continue. Reasoning systems may simply fail. Once a system has failed it is difficult to re-start the task from the failed state. Rather, the rule base is revised, programs altered, and the task re-tried from the beginning
Multirobot control architectures often require robotic tasks to be well defined before allocation. I...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...
This chapter discusses the common reactive high-level behavioral control system used by Team ViGIR a...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
In the last decade, robotic systems have penetrated human life more than human can imagine. In parti...
Robot controller design is usually hierarchical with both high-level task and motion planning and lo...
This thesis focuses on the development of an artificial intelligence system for a heterogeneous ense...
Even with the advance of autonomous robotics and automation, many automated tasks still require huma...
The goal of our project is to create a software architecture that makes it possible to easily contro...
AbstractIn a multirobot system, each robot can choose between two basic behaviors: obstacle avoidanc...
This project involves the creation and testing of a framework for human supervision of multi-robot s...
Many potential robotic applications require operation in highly dynamic environments and, in multi-a...
This paper explores means to increase efficiency in performing tasks with multi-robot teams, in the ...
In multi-robot control, robots need the ability to perform well in the absence of valid human input....
Multirobot control architectures often require robotic tasks to be well defined before allocation. I...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...
This chapter discusses the common reactive high-level behavioral control system used by Team ViGIR a...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
In the last decade, robotic systems have penetrated human life more than human can imagine. In parti...
Robot controller design is usually hierarchical with both high-level task and motion planning and lo...
This thesis focuses on the development of an artificial intelligence system for a heterogeneous ense...
Even with the advance of autonomous robotics and automation, many automated tasks still require huma...
The goal of our project is to create a software architecture that makes it possible to easily contro...
AbstractIn a multirobot system, each robot can choose between two basic behaviors: obstacle avoidanc...
This project involves the creation and testing of a framework for human supervision of multi-robot s...
Many potential robotic applications require operation in highly dynamic environments and, in multi-a...
This paper explores means to increase efficiency in performing tasks with multi-robot teams, in the ...
In multi-robot control, robots need the ability to perform well in the absence of valid human input....
Multirobot control architectures often require robotic tasks to be well defined before allocation. I...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...
This chapter discusses the common reactive high-level behavioral control system used by Team ViGIR a...