Add to ORKGThis research provides a generalized stabilizing velocity controllers for planer robot arm with a base rotational joint and n∈N translation joint for navigation. The end-effector of the planer robot arm has to navigate from an initial to a final configuration space in an environment, which cluttered with obstacles. The velocity controllers are developed from a Lyapunov function, total potentials, designed via Lyapunov-based control scheme (LbCS) falling under the classical approach of artificial potential fields method. The effectiveness of the controllers is validated through computer simulations
This Masters thesis describes the design and implementation of control strategies for the following ...
This paper presents a set of artificial potential field functions that improves upon, in general, t...
The ability of a robot to navigate through narrow and constrained spaces such as tunnels can be a cr...
Robotic arms play an indispensable role in multiple sectors such as manufacturing, transportation an...
In this research, the Lyapunov based Control Scheme (LbCS) is used to solve the motion planning and ...
This paper presents a dynamic n-link revolute robotic arm that can perform a sequence of tasks and n...
This paper presents a dynamic n-link revolute robotic arm that can perform a sequence of tasks and ...
This article studies the problem of applying normal forces on a surface, using an underactuated aeri...
This paper presents stabilizing velocity controllers for the individuals of two Lagrangian swarms, w...
The paper considers the problem of motion planning and posture control of multiple n-link doubly no...
In this paper we utilize the Lyapunov-based Control Scheme (LbCS) to solve the motion control proble...
Lyapunov-Based Control of Robotic Systems describes nonlinear control design solutions for problems ...
Finding feasible solutions to motion planning and control problem of robotic systems in different en...
: The paper presents a neural network controller design for trajectory tracking for manipulators. Ly...
We develop a set of novel autonomous controllers for multiple point-mass robots or agents in the pre...
This Masters thesis describes the design and implementation of control strategies for the following ...
This paper presents a set of artificial potential field functions that improves upon, in general, t...
The ability of a robot to navigate through narrow and constrained spaces such as tunnels can be a cr...
Robotic arms play an indispensable role in multiple sectors such as manufacturing, transportation an...
In this research, the Lyapunov based Control Scheme (LbCS) is used to solve the motion planning and ...
This paper presents a dynamic n-link revolute robotic arm that can perform a sequence of tasks and n...
This paper presents a dynamic n-link revolute robotic arm that can perform a sequence of tasks and ...
This article studies the problem of applying normal forces on a surface, using an underactuated aeri...
This paper presents stabilizing velocity controllers for the individuals of two Lagrangian swarms, w...
The paper considers the problem of motion planning and posture control of multiple n-link doubly no...
In this paper we utilize the Lyapunov-based Control Scheme (LbCS) to solve the motion control proble...
Lyapunov-Based Control of Robotic Systems describes nonlinear control design solutions for problems ...
Finding feasible solutions to motion planning and control problem of robotic systems in different en...
: The paper presents a neural network controller design for trajectory tracking for manipulators. Ly...
We develop a set of novel autonomous controllers for multiple point-mass robots or agents in the pre...
This Masters thesis describes the design and implementation of control strategies for the following ...
This paper presents a set of artificial potential field functions that improves upon, in general, t...
The ability of a robot to navigate through narrow and constrained spaces such as tunnels can be a cr...