In this study, the open-loop optimal control method is used to optimize the trajectory of a mobile robot with flexible links. Equations of motion for the mobile robot are initially obtained via the Lagrangian method. The assumed modes method is then used to obtain a model with limited degrees of freedom. The relevant kinematic model is established based on the standard frame transformation matrices including rigid rotations and elastic displacements assuming that the values for these parameters are small. The Book modified method is also used to obtain the kinematic elastic links. Elastic manipulator links are modeled as Euler-Bernoulli beams with Clamped-Mass (CM) boundary conditions. Nonholonomic constraints and additional kinematic const...
This paper is concerned with the dynamic motion analysis and the planning of maximum payload path of...
Abstract:- Vibration is one of the most important resources of error in motion of tip of flexible ro...
This paper aims at planning an optimal point to point path for a flexible manipulator under large de...
AbstractThis paper is concerned with mathematical modeling and optimal motion designing of flexible ...
This paper deals with the model-based development of optimal jerk-limited point-to-point trajectorie...
In this paper, finding Dynamic Load Carrying Capacity (DLCC) of flexible link manipulators in point ...
In this paper, the problem of trajectory optimization of flexible space robots is considered and an ...
The optimal joint angle trajectory planning of light-weight flexible manipulator is investigated bas...
A mobile flexible manipulator is developed in order to achieve high performance requirements such as...
Abstract: Robot motion planning between two given configurations in the time domain has a great impa...
This work presents a tracking control model for a flexible robotic manipulator using motor torques a...
In recent decades, lots of robots are designed and produced all over the world because of their impo...
In the context of the mechatronic design of lightweight machines and robots, this paper studies opti...
AbstractIn this article it is shown how the end effector position of a single flexible-link robot ca...
The thesis studies dynamics and control of a two-link flexible manipulator, free to undergo planar t...
This paper is concerned with the dynamic motion analysis and the planning of maximum payload path of...
Abstract:- Vibration is one of the most important resources of error in motion of tip of flexible ro...
This paper aims at planning an optimal point to point path for a flexible manipulator under large de...
AbstractThis paper is concerned with mathematical modeling and optimal motion designing of flexible ...
This paper deals with the model-based development of optimal jerk-limited point-to-point trajectorie...
In this paper, finding Dynamic Load Carrying Capacity (DLCC) of flexible link manipulators in point ...
In this paper, the problem of trajectory optimization of flexible space robots is considered and an ...
The optimal joint angle trajectory planning of light-weight flexible manipulator is investigated bas...
A mobile flexible manipulator is developed in order to achieve high performance requirements such as...
Abstract: Robot motion planning between two given configurations in the time domain has a great impa...
This work presents a tracking control model for a flexible robotic manipulator using motor torques a...
In recent decades, lots of robots are designed and produced all over the world because of their impo...
In the context of the mechatronic design of lightweight machines and robots, this paper studies opti...
AbstractIn this article it is shown how the end effector position of a single flexible-link robot ca...
The thesis studies dynamics and control of a two-link flexible manipulator, free to undergo planar t...
This paper is concerned with the dynamic motion analysis and the planning of maximum payload path of...
Abstract:- Vibration is one of the most important resources of error in motion of tip of flexible ro...
This paper aims at planning an optimal point to point path for a flexible manipulator under large de...