Multibody robotic organisms are reconfigurable dynamic systems. Thus the shape and the structure of a modular robot is not constant. Depending on the changing environment or on the current task of the robot its structure can be rearranged accordingly. Hence, that would also change the dynamic model of the robotic organism. Thus the kinematics and dynamics of the current modular structure of the robot, and with it also an appropriate control strategy, can not be calculated in advance
This study aims at providing a control-learning framework capable of generating optimal locomotion p...
In the deliverable 3.2 we presented how the morphological computing ap- proach can significantly fac...
Modular robots are systems that can change its geometry or configuration when connecting more module...
The development of self-reconfigurable modular robots has experienced significant progress. Continuo...
Modular self-reconfigurable robots are characterised by a high versatility. While most robots are de...
The article describes the use of a multi-agent system in modular robotics. Multi-agent systems origi...
Modular robots are robots composed of multiple units, called 'modules'. Each module is an independen...
AbstractWe demonstrate how multiagent systems provide useful control techniques for modular self-rec...
A modular robot system - consisting of a linear and a rotary actuator and for loads up to 50 kg - ha...
The field of modular self-reconfigurable robotic systems addresses the design, fabrication, motion p...
Modular robotic systems comprise individual robots, termed modules, that physically connect to one a...
Soft automation employs multi-functional robotic manipulators where dexterity, versatility and recon...
Modular reconfigurable robots are robotic systems offering new opportunities to rapidly create fit-...
In this paper, a passivity-based controller is proposed for a reconfigurable multi-arm system, which...
During the 21st-century robotics has been growing exponentially owing to the huge influence that ro...
This study aims at providing a control-learning framework capable of generating optimal locomotion p...
In the deliverable 3.2 we presented how the morphological computing ap- proach can significantly fac...
Modular robots are systems that can change its geometry or configuration when connecting more module...
The development of self-reconfigurable modular robots has experienced significant progress. Continuo...
Modular self-reconfigurable robots are characterised by a high versatility. While most robots are de...
The article describes the use of a multi-agent system in modular robotics. Multi-agent systems origi...
Modular robots are robots composed of multiple units, called 'modules'. Each module is an independen...
AbstractWe demonstrate how multiagent systems provide useful control techniques for modular self-rec...
A modular robot system - consisting of a linear and a rotary actuator and for loads up to 50 kg - ha...
The field of modular self-reconfigurable robotic systems addresses the design, fabrication, motion p...
Modular robotic systems comprise individual robots, termed modules, that physically connect to one a...
Soft automation employs multi-functional robotic manipulators where dexterity, versatility and recon...
Modular reconfigurable robots are robotic systems offering new opportunities to rapidly create fit-...
In this paper, a passivity-based controller is proposed for a reconfigurable multi-arm system, which...
During the 21st-century robotics has been growing exponentially owing to the huge influence that ro...
This study aims at providing a control-learning framework capable of generating optimal locomotion p...
In the deliverable 3.2 we presented how the morphological computing ap- proach can significantly fac...
Modular robots are systems that can change its geometry or configuration when connecting more module...