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This paper focuses on the design and construction of an optimization charging system for Li–Po batteries by means of tracked solar panels. Thus, the implementation of a complete energy management system applied to a robotic exploration vehicle is put forward. The proposed system was tested on the VANTER robotic platform—an autonomous unmanned exploration vehicle specialized in recognition. The interest of this robotic system lies in the design concept, based on a smart host microcontroller. On this basis, our proposal makes a twofold significant contribution. On the one hand, it presents the construction of a solar tracking mechanism aimed at increasing the rover’s power regardless of its mobility. On the other hand, it proposes an alternative design of power system performance based on a pack of two batteries. The aim is completing the process of charging a battery independently while the other battery provides all the energy consumed by the robotic vehicle.

Li–Po Battery, Mechatronic System, Photovoltaic (PV), Robotic Vehicle, Solar Tracker.

D. L. Shirley, ―Mars pathfinder microrover flight experiment—A paradigm for very low-cost spacecraft,‖ Acta Astronaut., vol. 35, pp. 355– 365, 1995.

H. J. Eisen, L. C. Wen, G. Hickey, and D. F. Braun, ―Sojourner mars rover thermal perfomance,‖ presented at the 28th Int. Conf. on Environmental Systems, Danvers, MA, 1998.

Stefano, B. V. Ratnakumar, M. C. Smart, G. Halpert, A. Kindler, H. Frank, S. Di, R. Ewell, and S. Surampudi, ―Lithium batteries on 2003 mars explo- ration rover,‖ presented at the IEEE 17th Annu. Battery Conf. Applications and Advances, Long Beach, CA, pp. 47–51, 2002.

M. Bajracharya, M. W. Maimone, and D. Helmick, ―Autonomy for mars rovers: Past, present, and future,‖ Computer, vol. 41, no. 12, pp. 44–50, 2008.

A. K. Baluch, ―Re-use of exomars rover on icy moons of jupiter,‖ M.Sc. thesis, Dept. Space Sci., Crandfield Univ., Swindon, U.K., 2010.

The Rover Team, ―The ExoMars rover and Pasteur payload Phase a study: An approach to experimental astrobiology,‖ Int. J. Astrobiol., vol. 5, no. 3, pp. 221–241, 2006.

J. L. Bresina, M. G. Bualat, L. J. Edwards, R. J. Washington, and A. R. Wright, ―K9 operation in May ’00 dual-rover field experiment,‖ pre- sented at the 6th Int. Symp. Artificial Intelligence, Robotics and Automa- tion in Space, Montreal, QC, Canada, 2001.

P. S. Schenker, E. T. Baumgartner, P. G. Backes, H. Aghazarian, L. I. Dorsky, J. S. Norris, T. L. Huntsberger, Y. Cheng, A. Trebi-Ollennu, M. S. Garrett, B. A. Kennedy, and A. J. Ganino, ―FIDO: A field integrated design & operations rover for mars surface exploration,‖ presented at the 6th Int. Symp. Artificial Intelligence, Robotics and Automation in Space, Quebec, QC, Canada, 2001.

T. Kubota, Y. Kunii, Y. Kuroda, and M. Otsuki, ―Japanese rover test-bed for lunar exploration,‖ in Proc. Int. Symp. Artif. Intell., Robot. Automat. Space, no.77, 2008.

M. S. Schneider, A. Bertrand, R. Lamon, P. Siegwart, R. van Winnendael, and A. Schiele, ―SOLERO: Solar powered exploration rover,‖ presented at the 7th ESA Workshop Advanced Space Technologies for Robotics and Automation, Noordwijk, The Netherlands, 2002.

P. Lamon, ―The solero rover. 3D-position tracking & control for all-terrain robots,‖ Adv. Robot., vol. 43, pp. 7–19, 2008.

B. Shamah, M. D. Wagner, S. Moorehead, J. Teza, D. Wettergreen, and W. L. Whittaker, ―Steering and control of a passively articulated robot,‖ presented at the SPIE Sensor Fusion and Decentralized Control in Robotic Systems IV, Oct. 2001.

D. Wettergreen, N. Cabrol, V. Baskaran, F. Calderon, S. Heys, D. Jonak, A. Lu¨ ders, D. Pane, T. Smith, J. Teza, P. Tompkins, D. Villa, C. Williams, and M. Wagner, ―Second experiment in the robotic investigation of life in the Atacama Desert of Chile,‖ presented at the 8th Int. Symp. Artifi- cial Intelligence, Robotics and Automation in Space, Munich, Germany, 2005.

I. Nourbakhsh, E. Hamner, D. Bernsteinb, K. Crowleyb, E. Ayooba, M. Lotterc, S. Shellyc, T. Hsiud, E. Portera, B. Dunlaveya, and D. Clan- cye, ―The personal exploration rover: Educational assessment of a robotic exhibit for informal learning venues,‖ Int. J. Eng. Educ., vol. 22, no. 4, pp. 777–791, 2006.

J. H. Lever, L. R. Ray, A. Streeter, and A. Price, ―Solar power for an antarctic rover,‖ Hydrol. Process, vol. 20, pp. 629–644, 2006.

L. E. Ray, J. H. Lever, A. D. Streeter, and A. D. Price, ―Design and power management of a solar-powered cool robot for polar instrument networks,‖ J. Field Robot., vol. 24, no. 7, pp. 581–599, 2007.

Y. Takahashi, S. Matsuo, and K. Kawakami, ―Hybrid robotic weelchair with photovoltaic solar cell and fuel cell,‖ in Proc. Int. Conf. Control, Autom. Syst., Seoul, Korea, 2008, pp. 1636–1640.

A. N. Wilhelm, B. W. Surgenor, and J. G. Pharoah, ―Design and Evaluation of a micro-fuel-cell-based power system for a mobile robot,‖ IEEE/ASME Trans. Mechatronics, vol. 11, no. 4, pp. 471–476, Aug. 2006.

I. A. Anderson, I. A. Ieropoulos, T. McKay, B. O’Brien, and C. Melhuish, ―Power for robotic artificial muscles,‖ IEEE/ASME Trans. Mechatronics, vol. 16, no. 1, pp. 107–111, Feb. 2011.

T. de Jesus Mateo Sanguino, ―Contributions to the development of virtual and remote laboratories in robotics,‖ Ph.D. dissertation, Dept. Electron. Eng., Comput. Syst. Automat., Univ. Huelva, Huelva, Spain, 2010.

J. M. Andu´ jar Ma´rquez, T. de Jesus Mateo Sanguino, F. J. Aguilar Nieto, J. J. Chica Barrera, and M. J. Mola Mateos, ―An image acquiring, processing and transfer system over bluetooth for an educational robotic platform,‖ presented at the 7th Conf. Mobile Robots Competitions, Albufeira, Portu- gal, 2007.

J. E. Gonza´lez Ramos, ―Battery charging optimization with steerable solar cells,‖ M.S. thesis, Dept. Electron. Eng., Comput. Syst. Autom., Univer- sidad de Huelva, Huelva, Spain, 2010.

A. B. Afarulrazi, W. M. Utomo, K. L. Liew, and M. Zafari, ―Solar tracker robot using microcontroller,‖ in Proc. Int. Conf. Bus., Eng. Ind. Appl., 2011, pp. 47–50.

S. Abdallah and S. Nijmeh, ―Two-axis sun tracking with PLC control,‖ Energy Convers. Manage, vol. 45, pp. 1931–1939, 2004.

C. Y. Lee, P. C. Chou, C. M. Chiang, and C. F. Lin, ―Sun tracking systems: A review,‖ Sensors, vol. 9, pp. 3875–3890, 2009.

T. Jinayim, S. Arunrungrasmi, T. Tanitteerapan, and N. Mungkung, ―Highly efficient low power consumption tracking solar cells for white-LED based lighting system,‖ World Acad. Sci., Eng. Technol., vol. 28, pp. 291–296, 2007.

N. Smith, ―Dynamic power path management simplifies battery charging from solar panels,‖ Texas Instruments, Dallas, TX, Tech. Rep. SLUA394, 2006.