Analysis, Design and Implementation of Automotive Breaking System Based on Gold Sequence with Correlation RADAR
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International Journal of Engineering Trends and Technology (IJETT) |  |
| © 2017 by IJETT Journal | ||
| Volume-43 Number-1 |
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| Year of Publication : 2017 | ||
| Authors : Shrikant Kumar, Dr. Paresh Rawat |
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| DOI : 10.14445/22315381/IJETT-V43P205 |
Citation
Shrikant Kumar, Dr. Paresh Rawat "Analysis, Design and Implementation of Automotive Breaking System Based on Gold Sequence with Correlation RADAR", International Journal of Engineering Trends and Technology (IJETT), V43(1),24-29 January 2017. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
Automation technologies have provided us with various systems that reduce the time and human error. Particularly the heavy vehicles like aircraft and submarine are very difficult to operate manually in heavy traffic. As personally one is very careful about, otherwise damage being caused to the system. In view of this to provide a proper guidance to the system in heavy traffic, means are provided. We have enhanced the facility by using automatic breaking when an obstacle is close by. Therefore, in this paper we propose an “Automatic Breaking system” to prevent collision by using correlated sequences for correlation radar to detect obstacles. The “Automatic Breaking system” will process the signal activities and their echo’s and controls the system to prevent accidents caused by careless driving or difficulty in detecting objects in the path. In this controlling logic is implemented on VHDL using Xilinx software. The system designed by VHDL keeps a distance between the object and system to prevent accidents.
References
[1] Divya Thakur, Prof. A. P. Thakare, “Implementation of Automatic Reverse Braking System on FGPA” IETE 46th Mid Term Symposium “Impact of Technology on Skill Development” MTS 2015.
[2] Pravin P Ashtankar, Sanjay S .dorle ,“Design Apporch For Anti-Collision Mechanism between vechicle to vechicle for improving Safety operation in Intelligent transportation system in 2009.
[3] Hung Youpeng, Zhang Haibo, ”Radar Infrared sensor Track Correlation Algorithm Using Gray Correlative Analysis” in 2009.
[4] Obstacle detection, obstacle avoidance and anti-collision system using a COTS multi-beam forward looking sonar proposed by Ken Teo, Kai Wei Ong and Hoe Chee Lai.in 2009.
[5] Neelappa, Dr. N. G. Kurahatti, “Novel Method for Design and Implementation of Low Power FPGA based RFID System” 978-1-4799-6085-9/15/$31.00 ©2015 IEEE.
[6] Chika Sugimoto, Yasuhisa Nakamura, Takuya Hashimoto, ”Development of pedestrian-to-vehicle communication system prototype for pedestrian safety using both wide-area and direct communication in 2008.
[7] L. Sakkila , P. Deloof. Real time processing unit used for an anti-collision road radar system in 2006.
[8] C.Tatkeu, P.deloof, Y.Elhillai “A Cooperative radar system for collision avoidance and communication between vehicles” in 2006.
[9] Retro-directive Noise Correlation Radar with Extremely Low Acquisition Time Shalabh Gupta and E. R. Brown, Fellow, IEEE University of California at Los Angeles, CA 90095 in 2003.
[10] M.Lienard and P.Degauque “CORRELATION RADAR: An optimization of code generator architecture in 2003.
[11] Pascal Deloof, jean-pierre GHYS “ Radar system studied at INRETS to the road and Railway field” in 2002.
Keywords
—PN Sequence, Correlation Radar, Avoid collision, Doppler Effect.