Journal Title : International Journal of Modern Trends in Engineering and Science
Paper Title : UNMANNED ARMY ROBOT WITH HUMAN INTERFERENCE
Volume 03 Issue 10 2016
ISSN no: 2348-3121
Page no: 116-118
Abstract – An embedded system is a special-purpose system in which the computer is completely encapsulated by or dedicated to the device or system it controls. Personal digital assistants (PDAs) or handheld computers are generally considered embedded devices because of the nature of their hardware design, even though they are more expandable in software terms. The embedded software is also called “firm ware”. Now days the intruders have a chance to enter our place easily or by using some techniques to enter easily, so we will place the camera in all the boarder lines and also along with the robots. In Pc we will be having all the data base of the military people. The camera will be monitoring all the places, If any new face is emerged the camera will send the image of the person to the Pc and will check in the data base. An RF transmitter module is a small PCB sub-assembly capable of transmitting a radio wave and modulating that wave to carry data. An RF receiver module receives the modulated RF signal, and demodulates it. Super-regenerative modules are usually low cost and low power designs using a series of amplifiers to extract modulated data from a carrier wave. A DC motor is any of a class of electrical machines that converts direct current electrical power into mechanical power. A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation. From our project the human interference is higher along with robotics. Due to this, I-Sniper overcome the drawback of the existing method where there is less human interference which leads to huge loss of life. Here in the project a robot is used with RF transmitter and receiver along with the microcontroller.
Keywords— RF Transmitter, RF Receiver, DC Motor, Laser, PDAs, Microcontroller
- V. Sezer, C. Dikilita, Z. Ercan, H. Heceoglu, A. bner, A. Apak, M. Gokasan and A. Mugan, “Conversion of a conventional electric automobile into an unmanned ground vehicle (UGV)”, Proceedings of the IEEEInternational Conference on Mechatronics, (2015) April 13-15; Istanbul, Turkey.
- Mohebbi, S. Safaee, M. Keshmiri and S. Mohebbi, “Design, Simulation and Manufacturing of a Tracked Surveillance Unmanned Ground Vehicle”, Proceedings of the IEEE International Conference on Robotics and Biomimetices, (2014) December 14-18; Montreal, Canada.
- J. -H. Lim, S. -H. Song, J. -R. Son, T. -Y. Kuc, H. -S. Park and H. -S.Kim, “An Automated Test Method for Robot Platform and Its Components”, International Journal of Software Engineering and Its Applications, (2013).
- Cadena, “Development of a low cost Autonomous Underwater Vehicle for Antarctic exploration”, Proceedings of the IEEE Conference on Technologies for Practical Robot Applications, (2013) April 11-12; Guayaquil, Ecuador.
- M. Z. Aziz and B. Mertsching, “Survivor Search With Autonomous UGVs Using Multimodal Overt Attention”, Proceedings of the International Workshop on Safety Security and Rescue Robotics, (2012) July 1-6; Paderborn, Germany.
- D. Grunberg, R. Ellenberg and I. H. Kim, “Development of an Autonomous Dancing Robot”, International Journal of Hybrid Information Technology, (2011).
- M. Yagimli and H. S. Varol, “Mine Detecting GPS-Based Unmanned Ground Vehicle”, Proceedings of the International Conference on Recent Advances in Space Technologies, (2011) June 11-13; Istanbul, Turkey.