2021
DOI: 10.48084/etasr.4312
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A Study on the Response of the Rehabilitation Lower Device using Sliding Mode Controller

Abstract: This paper presents the application of the sliding mode controller to simulate the control of a 3 Degree of Freedom (DoF) robot model that supports lower extremity rehabilitation exercises for stroke patients. The 3 DoF robot model has an established dynamic differential equation for each joint. This paper studied the response of links of the research model with a sliding mode controller proposed as the control solution. Matlab software was used in simulations of ankle, knee, and hip joints' drive for 2 cases,… Show more

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Cited by 5 publications
(4 citation statements)
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“…According to the simulation results obtained, it's about 140 times slower. In addition, since both of these solutions use an uncertainty estimation block for compensation control, they will be applicable for adaptive control of industrial robot systems with additional noise in the input, i.e., applying the method described by (4), (15). This is also a difference from the original model (1) because interference in the actuators is unavoidable.…”
Section: Two Structure Diagrams For Robot Control Using Iterative Lea...mentioning
confidence: 99%
See 1 more Smart Citation
“…According to the simulation results obtained, it's about 140 times slower. In addition, since both of these solutions use an uncertainty estimation block for compensation control, they will be applicable for adaptive control of industrial robot systems with additional noise in the input, i.e., applying the method described by (4), (15). This is also a difference from the original model (1) because interference in the actuators is unavoidable.…”
Section: Two Structure Diagrams For Robot Control Using Iterative Lea...mentioning
confidence: 99%
“…where A ,A 12 are two arbitrarity chosen matrices and (15) we see that the route cost calculation of model ( 1) is contained in this vectorη . Based on the equivalent model ( 14), the proposed intelligent controller for the robot is as follows:…”
Section: Algorithm Content According To the First Control Diagrammentioning
confidence: 99%
“…It has a compact size, large working space, and high mechanical rigidity but floating actuators. The disadvantage of the parallel mechanism has been optimized by later studies, namely increasing bandwidth or increasing working space as in Yoon's study [8] with three pantograph mechanisms, which have the motors fixed at the base for better dynamic bandwidth due to low travel. Lee presented a lightweight haptic device using a transmission mechanism [6].…”
Section: Introductionmentioning
confidence: 99%
“…Nonlinear controllers to address the limitations of PID controllers, such as the fuzzy controller [20,21], the neural network based controller [22], and the nonlinear ADRC controller [23], have been employed in several recent studies. In addition, the sliding mode controller and its various versions are always the leading candidates for the tasks of controlling nonlinear objects [17,[24][25][26][27]. Nonetheless, PAM is a nonlinear object, and the parameter estimation for the model of the PAM-based system is approximate and if the system disturbance is very high, it definitely affects the control quality of the aforementioned methods.…”
Section: Introductionmentioning
confidence: 99%