AbstractWe demonstrate how multiagent systems provide useful control techniques for modular self-reconfigurable (metamorphic) robots. Such robots consist of many modules that can move relative to each other, thereby changing the overall shape of the robot to suit different tasks. Multiagent control is particularly well-suited for tasks involving uncertain and changing environments. We illustrate this approach through simulation experiments of Proteo, a metamorphic robot system currently under development
Abstract—An overview of the field of modular self-reconfigurable robots is presented. The background...
Abstract—Metamorphic modular robots are versatile systems composed of a set of independent modules. ...
Robots that can actively change morphology offer many advantages over fixed shape, or monolithic, ro...
AbstractWe demonstrate how multiagent systems provide useful control techniques for modular self-rec...
Metamorphic modular robots are versatile systems composed of a set of independent modules. These mod...
The article describes the use of a multi-agent system in modular robotics. Multi-agent systems origi...
Metamorphic robots are robots that can change their shape by reorganizing the connectivity of their ...
The field of modular self-reconfigurable robotic systems addresses the design, fabrication, motion p...
Biological systems achieve amazing adaptive behavior with local agents that perform simple sensing a...
Biological systems achieve robust and scalable group behaviors, such as flocking, through local inte...
Self-reconfigurable robotic systems are variable-morphology machines capable of changing their overa...
The article describes the use of a multi-agent system in modular robotics. Multi-agent systems origi...
In this thesis, we consider the problem of autonomous self-reconfiguration by modular self-reconfigu...
Biological systems achieve amazing adaptive behavior with local agents performing simple sensing and...
Modular robots are a class of robotic systems composed of many identical, physically connected, pro-...
Abstract—An overview of the field of modular self-reconfigurable robots is presented. The background...
Abstract—Metamorphic modular robots are versatile systems composed of a set of independent modules. ...
Robots that can actively change morphology offer many advantages over fixed shape, or monolithic, ro...
AbstractWe demonstrate how multiagent systems provide useful control techniques for modular self-rec...
Metamorphic modular robots are versatile systems composed of a set of independent modules. These mod...
The article describes the use of a multi-agent system in modular robotics. Multi-agent systems origi...
Metamorphic robots are robots that can change their shape by reorganizing the connectivity of their ...
The field of modular self-reconfigurable robotic systems addresses the design, fabrication, motion p...
Biological systems achieve amazing adaptive behavior with local agents that perform simple sensing a...
Biological systems achieve robust and scalable group behaviors, such as flocking, through local inte...
Self-reconfigurable robotic systems are variable-morphology machines capable of changing their overa...
The article describes the use of a multi-agent system in modular robotics. Multi-agent systems origi...
In this thesis, we consider the problem of autonomous self-reconfiguration by modular self-reconfigu...
Biological systems achieve amazing adaptive behavior with local agents performing simple sensing and...
Modular robots are a class of robotic systems composed of many identical, physically connected, pro-...
Abstract—An overview of the field of modular self-reconfigurable robots is presented. The background...
Abstract—Metamorphic modular robots are versatile systems composed of a set of independent modules. ...
Robots that can actively change morphology offer many advantages over fixed shape, or monolithic, ro...