Trajectory tracking is utilized in medical rehabilitation programs at the early stage of rehabilitation in order to track the performance of the patient in performing the prescribed task. The robotic arm has been utilized to accomplish this due to it precision and provide repetitive motion. The goal of this study is to design and simulate a two-degree-of-freedom robotic arm that can effectively track a trajectory. As a result, this study discusses the modelling, simulation, and control of a Two Degree of Freedom (2-DOF) Robot Arm to attain that goal. First, the robot specifications are provided, as well as the forward and inverse kinematics of a 2-DOF robot arm. The dynamics of the 2-DOF robot arm were then defined using the Euler- Lagrange...
This research focuses on leveraging the capabilities of MATLAB/Simulink and Arduino microcontrollers...
This paper presents the modelling and control of a two degree of freedom upper extremity exoskeleton...
Stable trajectory tracking is one of the most important challenges in wearable rehabilitation robots...
In medical rehabilitation programs, trajectory tracking is used to increase the repeatability of joi...
This work investigates the performance of 2DOF (degree of freedom) PID (Proportional Integral Deriva...
Exoskeletal robots are used as high-tech products in the military, health and industrial application...
The aim of this work is to evaluate the output of a two-degree of freedom (DOF) proportional integra...
Upper limb dysfunctions (ULD) are common following a stroke. Annually, more than 15 million people s...
Rehabilitation devices have become one of the more sought-after focus areas among researchers in the...
Mimicking human arm motion has become a challenging topic for the researchers among the field of Hum...
Exoskeletal robots are used as high-tech products in the military, health and industrial application...
The objective of this paper is to design a controller which is able to control the output angle for ...
Arm robot manipulator heavily applied in industries ranging from welding, pick-and-place, assembly, ...
This paper proposes a meta-heuristic technique to optimize controller parameters for upper extremity...
This study explains the design and control of three degrees of freedom therapeutic exercise robot (P...
This research focuses on leveraging the capabilities of MATLAB/Simulink and Arduino microcontrollers...
This paper presents the modelling and control of a two degree of freedom upper extremity exoskeleton...
Stable trajectory tracking is one of the most important challenges in wearable rehabilitation robots...
In medical rehabilitation programs, trajectory tracking is used to increase the repeatability of joi...
This work investigates the performance of 2DOF (degree of freedom) PID (Proportional Integral Deriva...
Exoskeletal robots are used as high-tech products in the military, health and industrial application...
The aim of this work is to evaluate the output of a two-degree of freedom (DOF) proportional integra...
Upper limb dysfunctions (ULD) are common following a stroke. Annually, more than 15 million people s...
Rehabilitation devices have become one of the more sought-after focus areas among researchers in the...
Mimicking human arm motion has become a challenging topic for the researchers among the field of Hum...
Exoskeletal robots are used as high-tech products in the military, health and industrial application...
The objective of this paper is to design a controller which is able to control the output angle for ...
Arm robot manipulator heavily applied in industries ranging from welding, pick-and-place, assembly, ...
This paper proposes a meta-heuristic technique to optimize controller parameters for upper extremity...
This study explains the design and control of three degrees of freedom therapeutic exercise robot (P...
This research focuses on leveraging the capabilities of MATLAB/Simulink and Arduino microcontrollers...
This paper presents the modelling and control of a two degree of freedom upper extremity exoskeleton...
Stable trajectory tracking is one of the most important challenges in wearable rehabilitation robots...