A new method for mitigating unexpected impact of a redundant manipulator with an object in its environment is presented. Kinematic constraints are utilized with the recently developed method known as Full Space Parameterization (FSP). System performance criterion and constraints are changed at impact to return the end effector to the point of impact and halt the arm. Since large joint accelerations could occur as the manipulator is halted, joint acceleration bounds are imposed to simulate physical actuator limitations. Simulation results are presented for the case of a simple redundant planar manipulator
In this article, a new sensor-referenced control method using positive acceleration feedback togethe...
This article describes an efficient and effective strategy for limiting the workspace of a six degre...
A robot working in a space shared with humans and obstacles needs an obstacle avoidance strategy. In...
A solution method is presented for the motion planning and control of kinematically redundant serial...
The efficient utilization of the motion capabilities of mobile manipulators, i.e., manipulators moun...
The problem of position control of non-redundant manipulators was addressed during the initial stage...
In robotics the risk of collisions is present both in industrial applications and in remote handling...
Aiming at reducing joint velocity jumps caused by an unexpected joint-locked failure during space ma...
We consider the force control problem of a one degree-of-freedom flexible robot manipulator. We appr...
In robotics, the risk of collisions is present both in industrial applications and in remote handlin...
The efficient utilization of the motion capabilities of mobile manipulators, i.e.. manipulators moun...
A simple mathematical model for a constrained robotic manipulator is investigated. Besides the fact ...
We present a method that allows automatic reaction of a robot to physical collisions, while preservi...
In this paper is considered the problem of modeling and controlling the impact of a two-degree-of-fr...
This paper focuses on the path planning of free-floating space redundant manipulator in an environme...
In this article, a new sensor-referenced control method using positive acceleration feedback togethe...
This article describes an efficient and effective strategy for limiting the workspace of a six degre...
A robot working in a space shared with humans and obstacles needs an obstacle avoidance strategy. In...
A solution method is presented for the motion planning and control of kinematically redundant serial...
The efficient utilization of the motion capabilities of mobile manipulators, i.e., manipulators moun...
The problem of position control of non-redundant manipulators was addressed during the initial stage...
In robotics the risk of collisions is present both in industrial applications and in remote handling...
Aiming at reducing joint velocity jumps caused by an unexpected joint-locked failure during space ma...
We consider the force control problem of a one degree-of-freedom flexible robot manipulator. We appr...
In robotics, the risk of collisions is present both in industrial applications and in remote handlin...
The efficient utilization of the motion capabilities of mobile manipulators, i.e.. manipulators moun...
A simple mathematical model for a constrained robotic manipulator is investigated. Besides the fact ...
We present a method that allows automatic reaction of a robot to physical collisions, while preservi...
In this paper is considered the problem of modeling and controlling the impact of a two-degree-of-fr...
This paper focuses on the path planning of free-floating space redundant manipulator in an environme...
In this article, a new sensor-referenced control method using positive acceleration feedback togethe...
This article describes an efficient and effective strategy for limiting the workspace of a six degre...
A robot working in a space shared with humans and obstacles needs an obstacle avoidance strategy. In...