Flaping wing mechanism and Remote monitoring of biomimetic micro robot.

I. Kromba, S. Soulimane, F. Saffih

Abstract


Abstract: The microrobot is suitable for the remote monitoring of forests fires°. In addition, it can give real-time alarm of saturated harmful gazes. The article describes typical biomimetic butterfly characteristics and compares them qualitatively with those found in biological counterpart. The article presents a biomemitic micro robot inspired by butterflies for remote monitoring. The flying micro robot is created based on 3D printable material of "Poly Lactic Acid" (PLA) and PolyDiMethileSeloxane (PDMS). The present paper underlines two independent and variable parameters; the constraint of the aerodynamic parameters on the flying micro robot and the remote monitoring scanned space. The chosen flying model represents in a logical and unified way many of the fundamental characteristics of the micro robot behavior. These characterisctics have been treated separately to acquire an optimal flight for maximum distance. As the experimental data are still limited, the model was simplified as much as possible and modeled by finite elements in COMSOL multiphysics CAD tool in order to provide a basic framework from which the boundary conditions and the flying characteristics are determined. The results of the flying mechanism, the wings and the remote monitoring are studied and discussed in order to assess the ability of the micro robot to fly. The observed and calculated results agree well, and they confirm the possibility of flying the biomimetic butterfly very similar to the naturel one.

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References


Biney, C.; Calamari, D.; Maembe, T.W.; Naeve, H.;

Nyakageni, B.; Saad, M.A.H. Scientific basis of pollution control. Scientific review.

Anthony, J.; Michael, M. Health in urban areas: consequences of globalization for developing countries. Bulletin of the World Health Organization, (2000),78 (9): 1117-1126.

Kromba, I.; Soulimane, S.; Saffih, F. Mechanism optimization of biomimetic micro robot by finite element modeling. International Conference on Electrical Engineering (ICEE), Istanbul, Turkey (2020).

Chang, S-K.; Lai, Y-H.; You-Jun Lin, Y-J.; Yang, J-T. Enhanced lift and thrust via the translational motion between the thorax-abdomen node and the center of mass of a butterfly with a constructive abdominal oscillation. National library of medecine Rev. E 102, 062407 3 December 2020.

Arfan, M. G.; Pe'er, B.; Bauch, J.; Settele, K.; Henle, and Klenke, K. Evaluating presence data versus expert opinions to assess occurrence, habitat preferences and landscape permeability: a case study of butterflies. MDPI. Environments 5: 1– 20 (2018).

Loktionova, O.G.; Emilianova, O.V.; Ludmila, V. Design and control system of the robot ornithopter equipped with wings and tail. Proceedings of Southwest State University. 22. 18-26. 10.21869/2223-1560-2018-22-2-18-26. Struct. April 2018.

Dirion, J.L. Developement of tools for the opimisation of biomass thermal recovery processes. Struct. Mars 2013.

Vaira Vignech, R.; Padmanban, R..; Arivarasu, M. Numerical modeling of thermal phenomenon in fiction stir welding of aluminum plates. Conference international conference on advances in materials and manufacturing applications. 2016.

Chad Van der, W.; Sriram, N. Dynamic Structural Modelling of Wind Turbines Using COMSOL Multiphysics. conf. Comsol Multiphysics 2010. Bonston MA.

Hobon, M. Modélisation et Optimisation de la marche d’un robot. Article. Struct. - ENSAM,. French. . ⟨pastel-00832164⟩. Juin 2012.

Saffih, F.; Fieguth, P. Vehicle Longitudinal Acceleration Determination from Mobile Phone Sensor: An IoT System Solution for Intelligent Transportation. IEEE International Symposium on Signal Processing and Information Technology (ISSPIT), Louisville, KY, USA, 2018, pp. 706-710, doi: 10.1109/ISSPIT.2018.8642708.

Kromba, I.; Soulimane, S.; Saffih, F. Parametric simulation of butterfly wing under its mathematical optimal shape, International Conference on multi-disciplinary research studies and education (ICMDRSE) 2020.


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