Multipurpose Tactical Robot

Authors

  • Md. Taher-Uz-Zaman UAP
  • Md. Sazzad Ahmed UAP
  • Shabbir Hossain UAP
  • Shakhawat Hossain UAP
  • G. R. Ahmed Jamal UAP

DOI:

https://doi.org/10.18034/ei.v2i1.204

Keywords:

Robotics, Artificial intelligence, Arduino, Survelience, Mechanical arm, Multi sensoring

Abstract

This paper presents a general framework for planning a multipurpose robot which can be used in multiple fields (both civil and military). The framework shows the assembly of multiple sensors, mechanical arm, live video streaming and high range remote control and so on in a single robot. The planning problem is one of five fundamental challenges to the development of a real robotic system able to serve both purposes related to military and civil like live surveillance(both auto and manual), rescuing under natural disaster aftermath, firefighting, object picking, hazard like ignition, volatile gas detection, exploring underground mine or even terrestrial exploration.  Each of the four other areas – hardware design, programming, controlling and artificial intelligence are also discussed.

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Author Biographies

  • Md. Taher-Uz-Zaman, UAP

    Department of Electrical & Electronic Engineering, University of Asia Pacific, Bangladesh

  • Md. Sazzad Ahmed, UAP

    Department of Electrical & Electronic Engineering, University of Asia Pacific, Bangladesh

  • Shabbir Hossain, UAP

    Department of Electrical & Electronic Engineering, University of Asia Pacific, Bangladesh

  • Shakhawat Hossain, UAP

    Department of Electrical & Electronic Engineering, University of Asia Pacific, Bangladesh

  • G. R. Ahmed Jamal, UAP

    Assistant Professor, Dept. of Electrical & Electronic Engineering, University of Asia Pacific, Bangladesh

References

A. Aboshosha, A. Zell, “Adaptation of rescue robot behavior in unknown terrains based on stochastic and fuzzy logic approaches”, Proc. of IEEE/RSJ International Conference on Intelligent Robots and Systems,2003(IROS 2003), Vol. 3, pp.02859-2864, 27-31 Oct, 2003.

Anjum,s. “Design of non-conventional chain drive mechanism for a mini-robot”, Proc. of 2012 International conference on robotics and artificial intelligence(ICRAI), pp. 103-107, 22-23 Oct, 2012.

Araujo.A, “Integrating Arduino-based educational mobile robots in ROS”, 2013 13th international conference on Autonomous robot systems(robotica), pp. 1-6, 22-24 Apr, 2013.

D.T. Okerea, U.Diala, N.Onuekwusi, L.O. Uzoechi, G.Chukwudebe,“Improving security and emergency response through the use of unmanned vehicles” IEEE International Conference on Emerging & Sustainable Technologies for Power & ICT in a Developing Society (NIGERCON)-2013, pp.263-269, 14-16 Nov, 2013.

Duan dagao, “A robust error resilience Scheme for wireless video transmission”, Proceeding of 2nd international conference on computer science and information technology (ICCSIT) , pp. 217-221, 8-11 Aug, China, 2009.

F.D.Makaya, D.Chatelain, L.W.Snyman,“Design and performance assessment of a prototype wireless controlled robot.”, Proc. Of 12th International Symposium on Electron Devices for Microwave and Optoelectronic Applications 2004, pp.115-118, 8-9 Nov, 2004.

Hiu Liu, N.Stoll, S. junginger, K.Thurow, “A common wireless remote control system for mobile robots in laboratory”, Proc. of 2012 IEEE International Instrumentation and Mesurement Technology Conference (I2MTC), pp. 688-693, 13-16 May, 2012.

I. S. Jacobs and C. P. Bean, “Fine particles, thin films and exchange anisotropy in Magnetism, vol. III, G. T. Rado and H. Suhl, Eds. New York: Academic, pp. 271–350, 1963.

Juangshui Huang, “The thickness and stretch dependence of the electrical breakdown strength of an acrylic dielectric elastomer”, Appl. Phys. lett., Vol. 101, Issue 12, 122905, 2012.

Jurak,M. “An approach to consider upper limb kinematics for the Improvement of Motion control in a two arm robotic rehabilitation system.” IEEE 10th international conference on Rehabitation robotics ICORR-2007, 99.274-282, 13-15 June, 2007.

P. Krasnansky,F.Toth,V.V Huertas, B.Rohal’llkiv, “Basic labrotary experiments with an educational robotic arm”, Proc. Of International conference on Process Control(PC), pp. 510-515, 18-21 june, 2013.

Qiao Liu,Yong-gang Lu, Cun-xi Xie, “Optimal Genetic Fuzzy Obstacle Avoidance Controller of Autonomous Mobile Robot Based On Ultrasonic Sensors” , Proc. Of IEEE International Conferenc on Robotics and Biomimetics, pp. 125-129, 17-20 Dec, 2006.

R. Kunanuruksapong, “Effects of temperature and dielectric permittivity on electrorheological properties of elastomers”, Proc. of 7th IEEE Conf on nanotechnology-2007, pp.1081-1084, 2-5 Aug, 2007.

Ramu,G.V, “Remote robot training of its artificial neural network through GSM communication”, Proc. of 3rd international conference on systems and networks communications- 2008,pp 355-358, 26-31 Oct, 2008.

S. Kobayashi, K. Nonaka ,”Real-time optimized obostacle avoidance for robotic vehicles: Indoor experiments”, ICCAS-SICE, pp. 3193-3198, 18-21 Aug, 2009.

S.E.M. Bajestani, A. Vosoughinia, “Technical report of building a line follower robot”, Proc. Of International Conference On Electronics and Information Engineering (ICEIE), Vol. 1, 2010,

T. Yali, “Three axes full servo robotics design and application”, Proc. of 2010 international conference on computer application and system modeling (ICCASM), Vol. 13, pp.142-146, 22-24 oct, 2010.

Tao kang, “Determining natural arm configuration along reaching trajectory”, 25th conference of IEEEengineering in medicine and biology society-2003, Vol. 2, pp 352-361, 2005.

U. Ozguner, , “Decentralized variable structure control of a two-arm robotic system”, Proc. of 1987 IEEE international conference on robotics and auto mation., Vol. 4, pp. 1248-1254, 1987.

Uchiyama,M, “Hybrid position/force control for coordination of a two-arm robot”, Proc. of 1987.IEEE international conference on robotics and automation. Vol. 4, pp1242-1247, 1987.

Vishnu R.Kale,V.A.Kulkarni, “Object Sorting System Using Robotic Arm”. International Journal of Advanced Research in Electrical, Electronics.and.instrumentation.Vol 2,Issue 7, July, 2013.

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Published

2014-06-17

Issue

Section

Peer Reviewed Articles

How to Cite

Multipurpose Tactical Robot. (2014). Engineering International, 2(1), 21-27. https://doi.org/10.18034/ei.v2i1.204

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