I. J. of Electrical & Electronics Research
Research Article | 
Design and Implementation of Embedded in-Vehicle System with Multitask Management Using RTOS
Author(s): P. Rajani Kumari and Y. Ratna Babu
Published In : International Journal of Electrical and Electronics Research (IJEER) Volume 3, issue 4
Publisher : FOREX Publication
Published : 30 December 2015
e-ISSN : 2347-470X
Page(s) : 82-86
Abstract
several survey reports on vehicle accident say that, mostly accidents are happening due to Drunk and driving, driver’s drowsiness and, over speed. Unnecessary sudden parking of vehicles on highways at night time is another factor .If these mistakes are corrected accidents can be reduced to some extent. If accidents occurred, immediate first aid and treatment is necessary to save life. But if there is no neighbor the case may be severe. Keeping all these in mind a new system is proposed which can perform the necessary steps to prevent accident and incase if accident happened system will inform the owner and ambulance about this accident by tracking location using GPS and send text message using GSM. The designed system involves in two sections1. Monitoring 2.control. These two are two sequence of actions. In monitoring phase it detects alcohol consumption, steering wheel grip, engine Temperature measurement, accident detection and distance between front and corresponding vehicle .In controlling phase system responds automatically for the above abnormalities and controls the engine. system software is designed using “ RT kernel” and “Keil Micro vision 5” to be worked on the target board of LPC2148. This system makes vehicles as highly secured.
Keywords: MEMS, Steering Wheel grip sensor, ultrasonic sensor, temperature sensor.
P. Rajani Kumari*, Department of Electronics and Communication, Vignan’s Lara institute of Technology and scienceAndhra Pradesh, India ; Email: vivekanandasmily@gmail.com
Y. Ratna Babu, Department of Electronics and Communication, Vignan’s Lara institute of Technology and scienceAndhra Pradesh, India; Email: ratna2k5@yahoo.com
-
[1] Zutao Zhang, Jiashu Zhang, “A Novel Vehicle Safety Model: Vehicle speed Controller under Driver Fatigue”, “IJCSNS International Journal of Computer Science and Network Security”, VOL.9 No.1, January 2012.
-
[2] M. Bertozzi, A. Broggi, M. Cellario, A. Fascioli, P. Lombardi, and M.Porta, “Artificalvision in road vehicles,” Proceedings of the IEEE, vol. 90,no. 7, pp. 1258–1271, 2002.
-
[3] S. Tsugawa and Sadayuki, “Vision-based vehicle on japan: Machine vision systems and driving control systems,” IEEE Trans. on Ind. El., vol. 41, no. 4, pp. 398–405, 1994.
-
[4] Vehicle-highway automation activities in the United States. U.S. Dept of Transportation, 1997.
-
[5] C. Thorpe, J.D. Carlson, D. Duggins, J. Gowdy, R. MacLachlan, C. Mertz, A. Suppe, and C. Wan, “Safe robot driving in cluttered environments,” 11th International Symposium of Robotics Research, 2003.
-
[6] Qian Martin Eriksson, Nikolaos P. Papanikolopoulos, Eye- Tracking for Detection of Driver fatigue. Proceedings of the international Conference on intelligent Transportation System, Boston, MA, November 1997, pp.314-319.
-
[7] QiangJi, Zhiwei Zhu, and PeilinLan, Real-Time Nonintrusive Monitoring and Prediction of Driver Fatigue. IEEE Transactions on Vehicular Technology, VOL. 53, NO.4, July 2004, pp.1052- 1068.
-
[8] Hui, S.C. Eleview: Remote intelligent elevator monitoring system, International Journal of Computers and Applications, v 26, No 2, p111- 118, 2004.
-
[9] Zhang Guangming, Study on city elevator remote monitoring system based on multi-agent, Elevator World, v 54, No 7, p104- 111, July 2006.
-
[10] Phillip A. Laplante, Frederick C. Woolsey, "IEEE 1473: An Open Source Communications Protocol for Railway Vehicles," IT Professional, vol. 5, 00. 6, pp: 12-16, Nov./Dec.2003, DOI: 10.1109/ MITP. 2003.125496.