Author : C. Sivaprakash 1
Date of Publication :17th May 2017
Abstract: In this research paper, it deals with a smart way of transportation for educational institutions in a cost-effective manner. In present scenario, the transport system in educational institutions has few electronic modules inbuilt in the vehicle for effective communication, which are bit expensive. To overcome the economical barrier, we propose a cost effective intelligent way of transport system, using GSM module with RFID tag which makes the fleet management easier. The features of this system are accurate, robust, economical as well as flexible. Here we are using two modules, GSM and RFID. The Candidate who misses the bus, need to enquire the current location of that bus. The GSM based transport system provides the solution to this problem without calling or disturbing the person travelling in the bus. It consists of accident detection system in which the vibration sensor is used to detect the occurrence of the accident; the information will be communicated to the transport management of the institution which helps to overcome the problem. The college bus student’s information, their entry and exit are kept in record. Thus, at server side, whole information about buses and the respective student’s details are stored in database, with minimum technologies, our idea is to develop a user-friendly educational institutions transportation system which abides the rules and regulations of institution.
Reference :
-
- Mohammad A. Al-Khedher, (Dec 2011) Hybrid GPS-GSM Localization of Automobile Tracking System, IJCSIT Vol 3, No 6.
- CHEN Xue-Mei and WEI Zhong-Hua, (2011), "Vehicle Management System Based on Multimode RFID Cards" Proceedings of the 30th Chinese Control Conference.
- Seokju Lee, Tewolde, G. Jaerock Kwon, Design and implementation of vehicle tracking system using GPS/GSM/GPRS technology and smart phone Application.
- Rashmi Deshmukh Bus tracking and management using GPS and RFID Technologies, IJCSIT Vol 03, No.2
-
- B. Kieback, G. Stephani, T. Weißgärber, T. Schubert, U. Waag, A. Böhm, O. Andersen, H. Göhler and M. Reinfried, “Powder metallurgy for light weight and ultra- light weight materials”, Journal of Korean Powder Metallurgy Institute, vol. 10 (6), pp. 383-389, 2003.
- G.B. Schaffer, T.B. Sercombe and R.N. Lumley, “Liquid phase sintering of aluminium alloys”, Materials Chemistry and Physics, vol. 67, pp. 85-91, 2001.
- Th. Schubert, T. Weißgärber, B. Kieback, H. Balzer, H.C. Neubing, U. Baum and R. Braun, “P/M aluminium structural parts for automotive application”, Euro PM2004 – PM Applications, pp. 1- 6, 2004.
- N.B. Dhokey, V.A. Athavale, N. Narkhede and M. Kamble, “Effect of processing conditions on transient liquid phase sintering of premixed aluminum alloy powders”, Adva
- G. Kipouros, W. Caley, and D. Bishop, "On the Advantages of Using Powder Metallurgy in New Light Metal Alloy Design," Metallurgical and Materials Transactions A, vol. 37, pp. 3429-3436, 2006.
- J. S. Hirschhorn, Introduction to Powder Metallurgy: American Powder Metallurgy Institute, Princeton, New Jersey, 1969.
- H. Rudianto, S. Yang, K.W. Nam and Y.J. Kim, “Mechanical properties of Al-14Si-2.5Cu-0.5Mg aluminum-silicon P/M alloy”, Rev. Adv. Mater. Sci. vol. 28, pp. 145-149, 2011.
- D. W. Heard, I. W. Donaldson, and D. P. Bishop, "Metallurgical Assessment of a Hypereutectic Aluminum- Silicon P/M Alloy," Journal of Materials Processing Technology, vol. 209, pp. 5902-5911, 2009.
- A. Gökçe and F. Fındık, “Mechanical and physical properties of sintered aluminum powders”, Journal of Achievements in Materials and Manufacturing Engineering, vol. 30 (2), pp. 157-164, 2008.
- Y. S. Kwon and A. Savitskii, "Solid-State Sintering of Metal Powder Mixtures," Journal of Materials Synthesis and Processing, vol. 9, pp. 299- 317, 2001.
- R. R. Sawtell and J. T. Staley, "Interactions between Quenching and Aging in Alloy 7075," Aluminum, vol. 59, pp. 127-133, 1983.
- L. Pedersen and L. Arnberg, "The Effect of Solution Heat Treatment and Quenching Rates on Mechanical Properties and Microstructures in AlSiMg Foundry Alloys," Metallurgical and Materials Transactions A, vol. 32, pp. 525-532, 2001.