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Autonomous GSM Mobile-Based Robot Navigation

N.Gandhimathi*, J.S.Steffi Tamil Mathi**

*-** UG Scholar, Department of Electronics and Communication Engineering, Dr. Sivanthi Aditanar College of Engineering, Tamilnadu, India.

Periodicity:February - April'2014
DOI : https://doi.org/10.26634/jmt.1.1.2913

Abstract

This paper proposes a GSM -Mobile based Robot controller system with a PC interface. The robot can be controlled by a GSM mobile [9] in order to do customized tasks from a remote location, and which would be monitored by another remote interface like a PC interface. Robot Navigation [11] guides a mobile robot to move to a desired goal, along the planned path in an environment characterized by a terrain and a set of distinct objects (such as obstacles, milestones, waypoints and landmarks). Motion planning [2] is often designed to optimize specific performance criteria and to satisfy constraints on the robot's motion. The distinguishing feature of this paper is that, true mobility can be leveraged through the Mobile Communication Network. The robot also detects the obstacles while moving through the obstacle sensor [6].

Keywords

Control Architecture, GPS (Global Positioning System), GSM (Global System for Mobile Communication), Motor, Obstacle Sensor, Robot ,Mobility, GPRS (General Packet Radio Service).

How to Cite this Article?

Gandhimathi, N., and Steffi, J.S., Mathi, T.(2014). Autonomous GSM-Mobile Based Robot Navigation. i-manager’s Journal on Mobile Applications and Technologies, 1(1), 20-23. https://doi.org/10.26634/jmt.1.1.2913

References

[1]. Winter (2007). International Journal of Intelligent Systems and Technologies, Vol.2, No.1. Retrieved from www.waset.org.

[2]. Amritanshu Srivastava and Hrishikesh Narayan Tripathi, (2014). “GSM Calling based Multi-tasking Robot vehicle with Password protection”. IJARCSSE, Vol.4, No.1, pp. 812-819.

[3]. Kiranmai K. and Kishore Kumar M. (2013). “Design and implementation of supervising Robot by using SMS”. IJAREEIE, Vol. 2, No. 11, pp. 5718-5724.

[4]. Lian, S.H., (1996). “Fuzzy Logic Control of an Obstacle Avoidance Robot”, IEEE International Conference on Fuzzy Systems, Vol.1, pp.26-30.

[5]. Yen-Sheng Chen, (2009). “Intelligent Obstacle Avoidance Control Strategy for Wheeled Mobile Robot”. ICROS-SICE International Joint Conference.

[6]. Balasubramanian K., (2009). “Object recognition and obstacle avoidance robot”. IEEE Conference on Chinese Control and Decision Conference (CCDC).

[7]. Dong-ying Ju, (2007). “Development of Remote Control and Monitor System for Autonomous Mobile Robot Based on Virtual Cell Phone”. IEEE Conference on Innovating Computing, Information and Control.

[8]. Manish Kumar, (2013). “Design of Cell Phone Operated Robot Using DTMF for Object Research”. IEEE Conference on Wireless and Optical Communications Networks (WOCN).

[9]. Mohammed M. Ali, (2013). “GPRS-Based Remote Sensing And Tele-operation Of A Mobile Robot”, IEEE Conference on Signals, systems and devices.

[10]. T. Balch and R.C. Arkin, (1995). “Communication in reactive multiagent robotic systems”. Autonomous Robots, Vol.1, No.1, pp.27-52.

[11]. Ronald C. Arkin and Tucker Balch, (1998). “Cooperative Multiagent Robotic Systems”. In: Artificial intelligence and mobile robot, MIT Press Cambridge, pp. 277-296.

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Autonomous GSM Mobile-Based Robot Navigation

Abstract

Keywords

How to Cite this Article?

References

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