The literature lacks data on the reliability of 3D models created by Autodesk Inventor software and imported to MATLAB Simulink software in comparison to mathematically generated models. In this contribution, a two-link rigid-flexible manipulator modelled in two different methods was demonstrated, one of which is using Lagrange equations and Finite Element Method to generate a mathematical model of the manipulator, and the other is creating a 3D model with the aid of Autodesk Inventor then import to MATLAB Simulink, both models were subsequently controlled by three types of controllers, conventional PID controller, LQR controller, and LQG controller. The research demonstrated the performance of the two models with response to the three type...
This paper presents investigations into the development of a linear matrix inequalities (LMI) based ...
Current industrial and space manipulators are required to achieve higher speeds in a lighter structu...
©1993 The American Society of Mechanical EngineersDigital Object Identifier: http://dx.doi.org/10.11...
Flexible Link Manipulator Systems (FLMs) is more favoured in the industries when compared to the rig...
In this paper, a generalised Euler-Lagrange assumed modes for formulation for a manipulator with mul...
A robot manipulator also known as robotic arm usually programmable with similar function to a human ...
M.Tech. (Mechanical Engineering)Abstract: Due to the weight, rigid robots/manipulators consume a lar...
This paper presents a finite-element (FE) model of a manipulator with a flexible link and flexible j...
Due to their advantage of high speed, accuracy and repeatability, robot manipulators have become maj...
Copyright and all rights therein are retained by authors or by other copyright holders.Technical Rep...
The need for fast and precise robots in the industrial environment, capable of attending the product...
International audienceThis book presents the most recent research results about the modeling and con...
Flexible link manipulators have caught the interest of many researchers due to the limitations of th...
Methods for the design of robust controllers for nonlinear systems, especially manipulators, are inv...
This paper is addressed at the difficulty of accurately modelling a two-flexible-link manipulator sy...
This paper presents investigations into the development of a linear matrix inequalities (LMI) based ...
Current industrial and space manipulators are required to achieve higher speeds in a lighter structu...
©1993 The American Society of Mechanical EngineersDigital Object Identifier: http://dx.doi.org/10.11...
Flexible Link Manipulator Systems (FLMs) is more favoured in the industries when compared to the rig...
In this paper, a generalised Euler-Lagrange assumed modes for formulation for a manipulator with mul...
A robot manipulator also known as robotic arm usually programmable with similar function to a human ...
M.Tech. (Mechanical Engineering)Abstract: Due to the weight, rigid robots/manipulators consume a lar...
This paper presents a finite-element (FE) model of a manipulator with a flexible link and flexible j...
Due to their advantage of high speed, accuracy and repeatability, robot manipulators have become maj...
Copyright and all rights therein are retained by authors or by other copyright holders.Technical Rep...
The need for fast and precise robots in the industrial environment, capable of attending the product...
International audienceThis book presents the most recent research results about the modeling and con...
Flexible link manipulators have caught the interest of many researchers due to the limitations of th...
Methods for the design of robust controllers for nonlinear systems, especially manipulators, are inv...
This paper is addressed at the difficulty of accurately modelling a two-flexible-link manipulator sy...
This paper presents investigations into the development of a linear matrix inequalities (LMI) based ...
Current industrial and space manipulators are required to achieve higher speeds in a lighter structu...
©1993 The American Society of Mechanical EngineersDigital Object Identifier: http://dx.doi.org/10.11...