This paper proposes a robust PD control scheme for flexible-joint robots based on a disturbance observer (DOB). In this paper, the DOB is applied only to the motor-side dynamics of the robot, and the uncertainties on the motor-side are successfully eliminated. It is shown that the proposed DOB-based approach guarantees global asymptotic stability. To this end, two special treatments are required. First, unlike the typical configuration of the DOB, nominal states of the motor-side are fed back to the PD controller. Second, a control input that makes the nominal states stable is additionally introduced. The proposed approach was verified using multi-degree-of-freedom experiments.111514sciescopu
Using some recent nonlinear controller design techniques, we derive, and compare, several globally s...
This paper proposes a new nonlinear stability analysis for the acceleration-based robust position co...
In this paper, we propose a synchronization controller for flexible joint robots, which are intercon...
Disturbance observer (DOB) is widely used in many practical applications due to its simple structure...
This research project contains three main aspects. First, an observer-based controller is considered...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents the first input-output robust control design for the trajectory following proble...
In this paper a new approach employing smooth robust compensators is proposed for the control of unc...
grantor: University of TorontoThis thesis focuses on the development of new motion and fo...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
This paper presents the first input-output robust control design for the trajectory following proble...
In a flexible joint robotic manipulator, parametric variations and external disturbances result in m...
This paper presents a solution to the global adaptive partial state feedback control problem for rig...
In this paper the control of flexible joint manipulators is studied in detail. The model of N-axis f...
In this paper, disturbance rejection of DC motor PID trajectory control systems is enhanced for inde...
Using some recent nonlinear controller design techniques, we derive, and compare, several globally s...
This paper proposes a new nonlinear stability analysis for the acceleration-based robust position co...
In this paper, we propose a synchronization controller for flexible joint robots, which are intercon...
Disturbance observer (DOB) is widely used in many practical applications due to its simple structure...
This research project contains three main aspects. First, an observer-based controller is considered...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents the first input-output robust control design for the trajectory following proble...
In this paper a new approach employing smooth robust compensators is proposed for the control of unc...
grantor: University of TorontoThis thesis focuses on the development of new motion and fo...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
This paper presents the first input-output robust control design for the trajectory following proble...
In a flexible joint robotic manipulator, parametric variations and external disturbances result in m...
This paper presents a solution to the global adaptive partial state feedback control problem for rig...
In this paper the control of flexible joint manipulators is studied in detail. The model of N-axis f...
In this paper, disturbance rejection of DC motor PID trajectory control systems is enhanced for inde...
Using some recent nonlinear controller design techniques, we derive, and compare, several globally s...
This paper proposes a new nonlinear stability analysis for the acceleration-based robust position co...
In this paper, we propose a synchronization controller for flexible joint robots, which are intercon...