You are in:Home/Publications/"Inclination Angle Effect on Landmine Detection Estimation in Sandy Desert using Neural Networks", The 10th Asian Control Conference, ASCC 2015, (2015). DOI: 10.1109/ASCC.2015.7244615

Dr. Hussein Fouad Mohamed Ali :: Publications:

Title:
"Inclination Angle Effect on Landmine Detection Estimation in Sandy Desert using Neural Networks", The 10th Asian Control Conference, ASCC 2015, (2015). DOI: 10.1109/ASCC.2015.7244615
Authors: Hussein F.M. Ali, Zakarya Zyada, Ahmed M. R. Fath El Bab, and Said M. Megahed
Year: 2015
Keywords: Landmine detection; contact sensing; finite element, artificial neural networks; inverse solution.
Journal: Not Available
Volume: Not Available
Issue: Not Available
Pages: Not Available
Publisher: Not Available
Local/International: International
Paper Link: Not Available
Full paper hussein fouad mohamed ali_004__Conf_ASCC2015_Inclination Angle Effect on Landmine Charac.pdf
Supplementary materials Not Available
Abstract:

Many places in the world are contaminated with Landmines, normally buried under shallow or deep layers of sand and mud, which causes landmine detection and/or removal to be challenging tasks. To design a reliable landmine sensing system some deep analysis and many test cases are required. In this paper, existence of landmine under the ground surface is examined and its inclination angle effect on detection is analyzed applying finite element method and artificial neural networks. Inverse analyses are used to produce ‘forward results’. Applying a contact pressure (lower than the expected landmine activation pressure) on the ground containing a landmine under its surface would produce a pressure distribution that is dependent on the landmine type, depth and inclination. COMSOL Multi-physics is applied to model sandy soil contaminated by two landmines of different types at different depths and surface pressure distribution is obtained applying external pressure load of 1kPa. Three NNs are trained applying the obtained surface pressure distribution data. The first NN is of perceptron type which classifies the introduced objects in sand. The other two NNs are of feed-forward NN type and are developed for estimating depths of two landmines of different types, one for each. The Landmine inclination angles (0-30 degrees) effect on detection rate is studied. The results are tabulated and justified. The results show that the anti-tank landmine is fully detected, while the anti-personnel landmine is only detected with a rate of 75%. It is also shown that landmine characteristics estimation is reliable when its inclination angle is small.

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