Add to ORKGIn 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 fro
We present a robot control system for known structured environments that integrates robust reactive ...
We present a control system for autonomous mobile manipulators based on a theory of actions integrat...
We present a framework for representing scenarios with complex object interactions, where a robot ca...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
This paper presents a new architecture for controlling autonomous robotic agents, building on previo...
In highly autonomous robotic systems, human operators are able to attend to their own, separate task...
We present a model-based approach to the execution and control of an autonomous system, based on fle...
We endeavor to build a robotic manipulation system that is capable of functioning in an unstructured...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...
We present a system that integrates robot task execution with user input and feedback at multiple ab...
Grasping an object is a task that inherently needs to be treated in a hybrid fashion. The system mus...
This chapter discusses the common reactive high-level behavioral control system used by Team ViGIR a...
In this paper we propose a novel programming model for a personal robot that has an original behavio...
Making robot technology accessible to general end-users promises numerous benefits for all aspects o...
To achieve robust autonomy, robots must avoid getting stuck in states from which they cannot recove...
We present a robot control system for known structured environments that integrates robust reactive ...
We present a control system for autonomous mobile manipulators based on a theory of actions integrat...
We present a framework for representing scenarios with complex object interactions, where a robot ca...
In order to take advantage of autonomous robotic systems, and yet ensure successful completion of al...
This paper presents a new architecture for controlling autonomous robotic agents, building on previo...
In highly autonomous robotic systems, human operators are able to attend to their own, separate task...
We present a model-based approach to the execution and control of an autonomous system, based on fle...
We endeavor to build a robotic manipulation system that is capable of functioning in an unstructured...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...
We present a system that integrates robot task execution with user input and feedback at multiple ab...
Grasping an object is a task that inherently needs to be treated in a hybrid fashion. The system mus...
This chapter discusses the common reactive high-level behavioral control system used by Team ViGIR a...
In this paper we propose a novel programming model for a personal robot that has an original behavio...
Making robot technology accessible to general end-users promises numerous benefits for all aspects o...
To achieve robust autonomy, robots must avoid getting stuck in states from which they cannot recove...
We present a robot control system for known structured environments that integrates robust reactive ...
We present a control system for autonomous mobile manipulators based on a theory of actions integrat...
We present a framework for representing scenarios with complex object interactions, where a robot ca...