AbstractThis work offers the solution at the control feed-back level of the accurate positioning in a finite time of the end-effector whose mobile manipulator is subject to control and complex state constraints (both holonomic singularity and collision avoidance). Based on the Lyapunov stability theory, a suitably defined extended task error and exterior penalty function approach, a class of simple non-linear controllers converging in a finite time, which fulfil control and state constraints, is proposed. The numerical simulation results carried out for a mobile manipulator consisting of a nonholonomic differentially steered wheeled mobile platform and a holonomic manipulator of two revolute kinematic pairs, operating both in a two-dimensio...
In this paper, a controller based on constrained optimization for tracking problems in mobile manipu...
This article presents a control algorithm for nonholonomic mobile manipulators with a simple, geomet...
This paper presents the first motion planning methodology applicable to articulated, nonpoint nonhol...
This paper considers the problem of the accurate task space finite-time control susceptible to both ...
Finding feasible solutions to motion planning and control problem of robotic systems in different en...
The paper considers the problem of motion planning and posture control of multiple n-link doubly no...
A sub-optimal point-to-point trajectory planning method for mobile manipulators operating in the wor...
We propose an algorithm as a solution to the problem of trajectory planning and posture control of m...
In this paper we utilize the Lyapunov-based Control Scheme (LbCS) to solve the motion control proble...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
Robust force/motion control strategies are presented for mobile manipulators under both holonomic an...
In this paper we consider the finite time control of a simulated point mass robot with acceleration ...
The efficient utilization of the motion capabilities of mobile manipulators, i.e.. manipulators moun...
In this thesis, we investigate modeling, control, and coordination of mobile manipulators. A mobile ...
This paper considers the autonomous navigation problem of multiple n-link nonholonomic mobile manipu...
In this paper, a controller based on constrained optimization for tracking problems in mobile manipu...
This article presents a control algorithm for nonholonomic mobile manipulators with a simple, geomet...
This paper presents the first motion planning methodology applicable to articulated, nonpoint nonhol...
This paper considers the problem of the accurate task space finite-time control susceptible to both ...
Finding feasible solutions to motion planning and control problem of robotic systems in different en...
The paper considers the problem of motion planning and posture control of multiple n-link doubly no...
A sub-optimal point-to-point trajectory planning method for mobile manipulators operating in the wor...
We propose an algorithm as a solution to the problem of trajectory planning and posture control of m...
In this paper we utilize the Lyapunov-based Control Scheme (LbCS) to solve the motion control proble...
A method of planning sub-optimal trajectory for a mobile manipulator working in the environment incl...
Robust force/motion control strategies are presented for mobile manipulators under both holonomic an...
In this paper we consider the finite time control of a simulated point mass robot with acceleration ...
The efficient utilization of the motion capabilities of mobile manipulators, i.e.. manipulators moun...
In this thesis, we investigate modeling, control, and coordination of mobile manipulators. A mobile ...
This paper considers the autonomous navigation problem of multiple n-link nonholonomic mobile manipu...
In this paper, a controller based on constrained optimization for tracking problems in mobile manipu...
This article presents a control algorithm for nonholonomic mobile manipulators with a simple, geomet...
This paper presents the first motion planning methodology applicable to articulated, nonpoint nonhol...