Add to ORKGThis paper presents the design and development of a robust proportional derivative (PD) controller based on linear matrix inequality (LMI) for the control of a hub angular position and end-point deflection of a planar two-link flexible manipulator. The dynamics of the manipulator is uncertain and time varying due to the variation of payloads that result in large variations in the excitation of flexible modes. Practical design steps are presented in which the LMI-based conditions are formulated to obtain a robust PD gains to control the flexible manipulator. The robust controller has an advantage as compared to the Ziegler-Nichols tuned PD controller as the identified PD gains can be used to control the system under various loading condition...
Most engineering systems encountered in practice exhibit significant nonlinear behavior. For control...
Robots are now an integral part of automation sector, thus indicating the importance of the associat...
Abstract — A proportional-derivative (PD) control with on-line gravity compensation is proposed for ...
This paper presents investigations into the development of a linear matrix inequalities (LMI) based ...
This study presents the application of Linear Matrix Inequalities (LMI) approach in designing a prop...
Precise hub angle positioning due to tip deflections, flexible motions and under various payloads is...
Flexible link manipulators have recently high attention in research due to the numerous advantages o...
We consider the tracking problem for a robotic manipulator. First, we propose an approach which allo...
Two-link flexible manipulator is a manipulator robot which at least one of its arms is made of light...
Force control of a two-link planar manipulator with one flexible link is considered in this study. T...
This paper deals with some robustness aspects of a model based controller used for trajectory tracki...
This paper presents a state variable feedback (SVF) control with proportional gain to control a one-...
In this thesis, we develop robust dynamical controllers for addressing the problems of tracking and ...
Unconstrained and constrained motion control of a planar two-link structurally-flexible robotic mani...
Copyright [2002] IEEE. This material is posted here with permission of the IEEE. Such permission of ...
Most engineering systems encountered in practice exhibit significant nonlinear behavior. For control...
Robots are now an integral part of automation sector, thus indicating the importance of the associat...
Abstract — A proportional-derivative (PD) control with on-line gravity compensation is proposed for ...
This paper presents investigations into the development of a linear matrix inequalities (LMI) based ...
This study presents the application of Linear Matrix Inequalities (LMI) approach in designing a prop...
Precise hub angle positioning due to tip deflections, flexible motions and under various payloads is...
Flexible link manipulators have recently high attention in research due to the numerous advantages o...
We consider the tracking problem for a robotic manipulator. First, we propose an approach which allo...
Two-link flexible manipulator is a manipulator robot which at least one of its arms is made of light...
Force control of a two-link planar manipulator with one flexible link is considered in this study. T...
This paper deals with some robustness aspects of a model based controller used for trajectory tracki...
This paper presents a state variable feedback (SVF) control with proportional gain to control a one-...
In this thesis, we develop robust dynamical controllers for addressing the problems of tracking and ...
Unconstrained and constrained motion control of a planar two-link structurally-flexible robotic mani...
Copyright [2002] IEEE. This material is posted here with permission of the IEEE. Such permission of ...
Most engineering systems encountered in practice exhibit significant nonlinear behavior. For control...
Robots are now an integral part of automation sector, thus indicating the importance of the associat...
Abstract — A proportional-derivative (PD) control with on-line gravity compensation is proposed for ...