Using Linde Buzo Gray Clustering Neural Networks for Solving the Motion Equations of a Mobile Robot

Aydın, Serkan; Kılıç, İlker; Temeltaş, Hakan

doi:10.1007/s13369-011-0081-5

Cited by 6 publications

(2 citation statements)

References 13 publications

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“…SCG is found to be as fast as LM on function approximation but is faster than LM in cases with large datasets [13]. The SCG algorithm is computed using the following equation where "w ji " are the weight values; "v" is number of x vectors; "l" is the learning coefficient' and "S" is the search direction [16]:…”

Section: Fig 10 Artificial Neural Network (Ann) Modelmentioning

confidence: 99%

Characterization of a Mobile Waste-Robot: A Heuristic Method to Path Planning using Artificial Neural Networks

Corpuz

2019

IJRTE

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In the field of mobile robotics, path planning is one of the most widely-sought areas of interest due to its nature of complexity, where such issue is also practically evident in the case of mobile robots used for waste disposal purposes. To overcome issues on path planning, researchers have studied various classical and heuristic methods, however, the extent of optimization applicability and accuracy still remain an opportunity for further improvements. This paper presents the exploration of Artificial Neural Networks (ANN) in characterizing the path planning capability of a mobile waste-robot in order to improve navigational accuracy and path tracking time. The author utilized proximity and sound sensors as input vectors, dual H-bridge Direct Current (DC) motors as target vectors, and trained the ANN model using Levenberg-Marquardt (LM) and Scaled Conjugate (SCG) algorithms. Results revealed that LM was significantly more accurate than SCG algorithm in local path planning with Mean Square Error (MSE) values of 1.75966, 2.67946, and 2.04963, and Regression (R) values of 0.995671, 0.991247, and 0.983187 in training, testing, and validation environments, respectively. Furthermore, based on simulation results, LM was also found to be more accurate and faster than SCG with Pearson R correlation coefficients of rx=.975, nx=6, px=0.001 and ry=.987, ny=6, py=0.000 and path tracking time of 8.47s.

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Section: Fig 10 Artificial Neural Network (Ann) Modelmentioning

confidence: 99%

Characterization of a Mobile Waste-Robot: A Heuristic Method to Path Planning using Artificial Neural Networks

Corpuz

2019

IJRTE

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“…Many investigators have paid their attention to study the problems of controlling the non-holonomic system and as a result of that a number of control algorithms have been achieved to sort out the path-tracking control problems as neural network controller [1], the kinematic back-stepping method controller [2], [3]. Lyapunov criterion is implemented to prove the stability of the proposed control law since this criterion is active in specifying the cited stability [4].…”

Section: Introductionmentioning

confidence: 99%

Motion Control of Non-Holonomic Wheeled Mobile Robot Based on Particle Swarm Optimization Method (PSO)

Tawfik¹

2019

JAARU

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Using (PID) controller to control the trajectory motion of non-holonomic wheeled mobile robot may not be efficient especially for non-linear systems. Hence this work introduces a combination of back stepping method with the (PID) controller to obtain an efficient controller for (WMR) to deal with the non-linear systems. Different common trajectories such as infinity, circle and straight line were applied to be tracked by (WMR) to examine the control system. The results of the simulation tests of the designated trajectories with the desired trajectories were achieved through the implementation of the mean square error for x, y and the orientation. Practical swam optimization method was used to find the control gain to investigate an optimized minimum error percentage. The results of simulation show a good tracking performance with the desired trajectories.

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Scenario Reduction for Probabilistic Robot Path Planning in the Presence of Preferences on Hidden States

2014

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Using Linde Buzo Gray Clustering Neural Networks for Solving the Motion Equations of a Mobile Robot

Cited by 6 publications

References 13 publications

Characterization of a Mobile Waste-Robot: A Heuristic Method to Path Planning using Artificial Neural Networks

Characterization of a Mobile Waste-Robot: A Heuristic Method to Path Planning using Artificial Neural Networks

Motion Control of Non-Holonomic Wheeled Mobile Robot Based on Particle Swarm Optimization Method (PSO)

Scenario Reduction for Probabilistic Robot Path Planning in the Presence of Preferences on Hidden States

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