Experimental Investigation of an Adaptive Neuro-Fuzzy Control Scheme for Industrial Robots

Farrage, Abdallah; Sharkawy, Abdel Badie; Ali, Ahmed S.; Soliman, M-Emad S.; Mohamed, Hany A.

doi:10.21608/jesaun.2014.115023

Cited by 2 publications

(1 citation statement)

References 16 publications

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“…Experimental and simulated results show clearly that the fuzzy logic controller gave a better satisfying response than the traditional PID controller in term of minimum overshoot, rise time, settling time, and RMS of tracking error. That main conclusion is in agreement with [41]. Also he observed that the controller gave better performance on joint 2 than joint 1(note: he uses same JUPITER XL SCARA robot ).…”

Section: Simulation Resultssupporting

confidence: 84%

Bilateral Control of a 2-DOF Teleoperated Manipulator Using UDP Scheme

Mohsen¹,

Ibrahim²

2021

Preprint

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In this paper, a workspace-control system was developed to deals with the problem of position-tracking of bilateral teleoperated two degrees of freedom manipulators, and aid the human operator in driving and controlling the slave robot that performs critical and difficult tasks such as under water works. The developed system consists of, "JUPITER XL SCARA" robot as a slave manipulator with only the first two links activated, a wireless User Datagram Protocol (UDP) network, and PC as a master controller. The system model parameters identified using the Least-Squares method. A PID and FLC controllers with different input signals were applied to the system. It was proved experimentally and by simulation on Matlab that the FLC gave a better performance than the PID controller. The two parallel loop subroutine technique proved a great enhancement to the system performance as it decreased the total delay time in the system to almost 25 milliseconds.

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Section: Simulation Resultssupporting

confidence: 84%

Bilateral Control of a 2-DOF Teleoperated Manipulator Using UDP Scheme

Mohsen¹,

Ibrahim²

2021

Preprint

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ANFIS+PID Hybrid Controller Design for Controlling of a 6-DOF Robot Manipulator and its Error Convergence Analysis

طلب¹,

میگلی²,

غفاری³

2019

JoC

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In this paper, an ANFIS+PID hybrid control policy has been addressed to control a 6degree-of freedom (6-DOF) robotic manipulator. Then its error convergence has been also evaluated. The ability to formulate and estimate the system uncertainties and disturbances along with system dynamics and rejecting the disturbances effect are some advantages of the proposed method in comparing with the conventional ANFIS structures. The error convergence could not be proved in the ordinary ANFIS structures. But in the proposed method, the error convergence of the robot manipulator can be established under considering some mathematical conditions. The proposed control law is realized via parallel combination of ordinary ANFIS network and PID controller. The suggested method has been successfully applied in a 6-DOF robot manipulator system. Furthermore, in presence of uncertainties and external disturbances error convergence would be justified using the Lyapunov-like theorem and Barbalat lemma.

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Experimental Investigation of an Adaptive Neuro-Fuzzy Control Scheme for Industrial Robots

Cited by 2 publications

References 16 publications

Bilateral Control of a 2-DOF Teleoperated Manipulator Using UDP Scheme

Bilateral Control of a 2-DOF Teleoperated Manipulator Using UDP Scheme

ANFIS+PID Hybrid Controller Design for Controlling of a 6-DOF Robot Manipulator and its Error Convergence Analysis

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