The efficient utilization of the motion capabilities of mobile manipulators, i.e.. manipulators mounted on mobile platforms, requires the resolution of the kinematically redundant system formed by the addition of the degrees of freedom (d.o.f.) of the platform to those of the manipulator. At the velocity level, the linearized Jacobian equation for such a redundant system represents an underspecified system of algebraic equations, which can be subject to a set of constraints such as obstacles in the workspace and various limits on the joint motions. A method, which we named the FSP (Full Space Parameterization), has recently been developed to resolve such underspecified systems with constraints that may vary in time and in number during a si...
We consider robotic systems made of a nonholonomic mobile platform carrying a manipulator (nonholono...
We consider the problem of planning collision-free motions for a mobile manipulator whose end-effect...
AbstractThis paper is concerned with mathematical modeling and optimal motion designing of flexible ...
The efficient utilization of the motion capabilities of mobile manipulators, i.e., manipulators moun...
A solution method is presented for the motion planning and control of kinematically redundant serial...
The motion of nonholonomic mobile manipulators (NMMs) is inherently constrained by joint limits, joi...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
Few optimization methods exist for path planning of kinematically redundant manipulators. Among thes...
A planning methodology for nonholonomic mobile manipulators that employs smooth and continuous funct...
An approach for modelling and motion planning of a mobile manipulator system with nonholonomic const...
A planning methodology for nonholonomic mobile platforms with manipulators in the presence of obstac...
A planning methodology for nonholonomic mobile platforms with manipulators in the presence of obstac...
A sub-optimal point-to-point trajectory planning method for mobile manipulators operating in the wor...
This paper presents a motion planning method for mobile manipulators for which the base locomotion i...
A mobile manipulator is a robotic arm mounted on a robotic mobile platform. In such a system, the de...
We consider robotic systems made of a nonholonomic mobile platform carrying a manipulator (nonholono...
We consider the problem of planning collision-free motions for a mobile manipulator whose end-effect...
AbstractThis paper is concerned with mathematical modeling and optimal motion designing of flexible ...
The efficient utilization of the motion capabilities of mobile manipulators, i.e., manipulators moun...
A solution method is presented for the motion planning and control of kinematically redundant serial...
The motion of nonholonomic mobile manipulators (NMMs) is inherently constrained by joint limits, joi...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
Few optimization methods exist for path planning of kinematically redundant manipulators. Among thes...
A planning methodology for nonholonomic mobile manipulators that employs smooth and continuous funct...
An approach for modelling and motion planning of a mobile manipulator system with nonholonomic const...
A planning methodology for nonholonomic mobile platforms with manipulators in the presence of obstac...
A planning methodology for nonholonomic mobile platforms with manipulators in the presence of obstac...
A sub-optimal point-to-point trajectory planning method for mobile manipulators operating in the wor...
This paper presents a motion planning method for mobile manipulators for which the base locomotion i...
A mobile manipulator is a robotic arm mounted on a robotic mobile platform. In such a system, the de...
We consider robotic systems made of a nonholonomic mobile platform carrying a manipulator (nonholono...
We consider the problem of planning collision-free motions for a mobile manipulator whose end-effect...
AbstractThis paper is concerned with mathematical modeling and optimal motion designing of flexible ...