This paper describes a modular approach for computing redundant robot kinematics. First some conventional redundant control methods are presented and shown to be `passive control laws`, i.e. they can be represented by a network consisting of passive elements. These networks are then put into modular form by applying scattering operator techniques. Additional subnetwork modules can then be added to further shape the motion. Modules for obstacle detection, joint limit avoidance, proximity sensing, and for imposing nonlinear velocity constraints are presented. The resulting redundant robot control system is modular, flexible and robust
In the first part of this thesis we analyze the stability of redundant robot motions under Jacobian ...
In this work, a comprehensive control strategy for obstacle avoidance in redundant manipulation is p...
This paper presents a dynamic-level control algorithm to meet simultaneously multiple desired tasks ...
This paper is focused on the kinematic ontrol of redundant modular obots for trajectory tracing. Bas...
The ability to rapidly command multi-robot behavior is crucial for the acceptance and effective util...
Redundancy in robots is very much an open research area in the field of robotics. As the tasks requi...
This work examines how to utilize a robot that consists of many modular units with revolute joints t...
In the project 'pathplaning' a model has been developed which permits to find a path between a start...
Redundant manipulators have some advantages when compared with classical arms because they allow the...
This paper presents a framework for the motion planning and control of redundant manipulators with t...
Repetitive Motion Planning and Control of Redundant Robot Manipulators presents four typical motion ...
This thesis is concerned with the problem of dynamic control of kinematically redundant manipulators...
This book presents and investigates different methods and schemes for the control of robotic arms wh...
A robot working in a space shared with humans and obstacles needs an obstacle avoidance strategy. In...
Soft automation employs multi-functional robotic manipulators where dexterity, versatility and recon...
In the first part of this thesis we analyze the stability of redundant robot motions under Jacobian ...
In this work, a comprehensive control strategy for obstacle avoidance in redundant manipulation is p...
This paper presents a dynamic-level control algorithm to meet simultaneously multiple desired tasks ...
This paper is focused on the kinematic ontrol of redundant modular obots for trajectory tracing. Bas...
The ability to rapidly command multi-robot behavior is crucial for the acceptance and effective util...
Redundancy in robots is very much an open research area in the field of robotics. As the tasks requi...
This work examines how to utilize a robot that consists of many modular units with revolute joints t...
In the project 'pathplaning' a model has been developed which permits to find a path between a start...
Redundant manipulators have some advantages when compared with classical arms because they allow the...
This paper presents a framework for the motion planning and control of redundant manipulators with t...
Repetitive Motion Planning and Control of Redundant Robot Manipulators presents four typical motion ...
This thesis is concerned with the problem of dynamic control of kinematically redundant manipulators...
This book presents and investigates different methods and schemes for the control of robotic arms wh...
A robot working in a space shared with humans and obstacles needs an obstacle avoidance strategy. In...
Soft automation employs multi-functional robotic manipulators where dexterity, versatility and recon...
In the first part of this thesis we analyze the stability of redundant robot motions under Jacobian ...
In this work, a comprehensive control strategy for obstacle avoidance in redundant manipulation is p...
This paper presents a dynamic-level control algorithm to meet simultaneously multiple desired tasks ...