In this paper, we propose an optimized differential evolution algorithm based on kinematic limitations and structural complexity constraints to solve the trajectory tracking problem for a mobile manipulator robot. The traditional method mainly involves obtaining the speed of the control variable based on the Jacobian inverse or linearization of the robot’s kinematic model, which cannot avoid the singularity position and/or self-collision phenomena. To address these problems, we directly design an optimized differential evolution algorithm to solve the trajectory planning problem for mobile manipulator robots. First, we analyze various constraints on the actual movement and describe them specifically using various equations or inequalities, ...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
An approach for modelling and motion planning of a mobile manipulator system with nonholonomic const...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
In our recent work [5], by explicitly considering kinematic model of the robot, the family of feasib...
The motion of nonholonomic mobile manipulators (NMMs) is inherently constrained by joint limits, joi...
A mobile manipulator is a robotic arm mounted on a robotic mobile platform. In such a system, the de...
This paper presents a motion planning method for mobile manipulators for which the base locomotion i...
Abstract—In this paper, we present a suboptimal and an-alytical solution to the trajectory generatio...
In this paper, we propose an algorithm that combine the restriction on motor's velocities and the ki...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
A trajectory following and obstacle avoidance mechanism for a mobile robot is presented for situatio...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
This paper presents a real-time method for whole-body trajectory optimization of mobile manipulators...
In this thesis, we investigate modeling, control, and coordination of mobile manipulators. A mobile ...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
An approach for modelling and motion planning of a mobile manipulator system with nonholonomic const...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
In our recent work [5], by explicitly considering kinematic model of the robot, the family of feasib...
The motion of nonholonomic mobile manipulators (NMMs) is inherently constrained by joint limits, joi...
A mobile manipulator is a robotic arm mounted on a robotic mobile platform. In such a system, the de...
This paper presents a motion planning method for mobile manipulators for which the base locomotion i...
Abstract—In this paper, we present a suboptimal and an-alytical solution to the trajectory generatio...
In this paper, we propose an algorithm that combine the restriction on motor's velocities and the ki...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
A trajectory following and obstacle avoidance mechanism for a mobile robot is presented for situatio...
In this paper, the problem of determining a collision-free trajectory for a car-like mobile robot mo...
This paper presents a real-time method for whole-body trajectory optimization of mobile manipulators...
In this thesis, we investigate modeling, control, and coordination of mobile manipulators. A mobile ...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
An approach for modelling and motion planning of a mobile manipulator system with nonholonomic const...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...