Development of a real-time-position prediction algorithm for under-actuated robot manipulator by using of artificial neural network

Al-Assadi, Hayder M. A. Ali; Isa, Ahmad Azlan Mat; Hasan, Ali T.; Rahman, Zuriah Abdul; Heimann, Bodo

doi:10.1177/0954406211400345

Cited by 6 publications

(5 citation statements)

References 30 publications

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“…For the sigmoid activation function given in equation (3), the so-called delta rule for iterative convergence towards a solution, stated in general is given as (6) where is the learning rate parameter, and the error K at an output layer unit K is given by (7) Also, the error J at a hidden layer unit is given by (8) Using the generalized data delta rule to adjust weights leading to the hidden units is back propagating the error adjustment, which allows for adjustment of weights leading to the hidden layer neurons in addition to the usual adjustments to the weights leading to the output layer neurons.…”

Section: Learning Algorithmmentioning

confidence: 99%

“…AI implemented in Robots for predicting and making robot systems able to attribute more intelligence with a higher degree of autonomy. Researchers have recommended Artificial Neural Network (ANN) from its arbitrary for learning from examples and predict from a large number of data [6]. The ANN will learn the target parameters based on weight adoption via reducing the error between the target and the calculated output throughout an iteration during the training process.…”

Section: Introductionmentioning

confidence: 99%

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Arm Exoskeleton for Rehabilitation Following Stroke by Learning Algorithm Prediction

Fikri

Abdullah

Ramli

2014

Procedia Computer Science

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Stroke is a major cause of disability in worldwide and also one of the causes of death after coronary heart disease. Many devices had been designed for hand motor function rehabilitation that a stroke survivor can use for bilateral movement practice. This paper presents an arm motor function rehabilitation device where it is designed to predict the position angle for the robotic arm. MATLAB software is used for real-time positioning that can be developed by SIMULINK block diagram and proof by the simulator in program code in order for devising to operate under the position demand. All the angular motions or feedback to the simulation mode from the attached optical encoders via the Data Acquisition Card (DAQ). The learning algorithm can directly determine the position of its joint and can therefore completely eliminate the need for any system modelling. The robotic arm shows a successful implementation of the learning algorithm in predicting the behavior for arm exoskeleton.

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Section: Learning Algorithmmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Arm Exoskeleton for Rehabilitation Following Stroke by Learning Algorithm Prediction

Fikri

Abdullah

Ramli

2014

Procedia Computer Science

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“…It can dampen high vibrational modes less effectively handled by active control. However, passive control alone cannot eliminate the large amplitude deflections, which must be dealt with using (Pedro and Tshabalala, 2015;Jiang, 2015;Al-Assadi et al, 2011;Yan and Wang, 2012;Rahmani and Belkheiri, 2019). Hybrid neuro-fuzzy controllers consist of two significant parts: The NN controller, followed by the FLC.…”

Section: Introductionmentioning

confidence: 99%

Real-Time Fuzzy Logic Control of Two-Link Flexible Manipulators

Pedro¹,

Hynek²

2023

Journal of Mechatronics and Robotics

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This study investigates the development of a Fuzzy Logic Controller (FLC) for tracking a sinusoidal wave trajectory and suppressing the vibration of a Two Link Flexible Manipulator (TLFM). The TLFM was modeled using Lagrange's formalism and the Assumed Mode Method (AMM). A three-part apparatus consisting of a TLFM mathematical model, a real-world TLFM, and control software was designed and implemented. The FLC was applied to both the simulated and real-world TLFM. The robustness of the FLC was investigated by considering variable payload mass and link angular velocity in both constructive and destructive link interference trajectory cases. Simulation and experimental results show the effectiveness and robustness of the proposed FLC.

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“…2 Neural networks (NN) are versatile modeling tool for function approximation. [3][4][5][6][7][8][9] In robotics, neural networks and bio-inspired techniques are used for control of a mobile robot, 10,11 robot manipulator 12,13 or to predict robot failures during exploitation. 14 Likewise, neural networks are often used in the development of control approaches for mobile robots in structured/unstructured environments.…”

Section: Introductionmentioning

confidence: 99%

Neural extended Kalman filter for monocular SLAM in indoor environment

Miljković

Vuković

Mitić

2015

Proceedings of the Institution of Mechanical Engineers, Part C:

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The extended Kalman filter (EKF) has become a popular solution for the simultaneous localization and mapping (SLAM). This paper presents the implementation of the EKF coupled with a feedforward neural network for the monocular SLAM. The neural extended Kalman filter (NEKF) is applied online to approximate an error between the motion model of the mobile robot and the real system performance. Inadequate modeling of the robot motion can jeopardize the quality of estimation. The paper shows integration of EKF with feedforward neural network and simulation analysis of its consistency and implementation of the NEKF with a mobile robot, laboratory experimental environment, and a simple USB camera. The simulation and experimental results show that integration of neural network into EKF prediction–correction cycle results in improved consistency and accuracy.

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Development of a real-time-position prediction algorithm for under-actuated robot manipulator by using of artificial neural network

Cited by 6 publications

References 30 publications

Arm Exoskeleton for Rehabilitation Following Stroke by Learning Algorithm Prediction

Arm Exoskeleton for Rehabilitation Following Stroke by Learning Algorithm Prediction

Real-Time Fuzzy Logic Control of Two-Link Flexible Manipulators

Neural extended Kalman filter for monocular SLAM in indoor environment

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