INTERNET OF VEHICLES-BASED REAL-TIME VEHICLE TRACKING

Authors

  • Raghunath Reddy Yeddula M.Tech-Embedded Systems VIT UNIVERSITY Chennai, Tamilnadu, India
  • Vetrivelan P School of Electronics Engineering (SENSE)VIT UNIVERSITY Chennai, Tamilnadu, India

DOI:

https://doi.org/10.22159/ajpcr.2017.v10s1.19559

Keywords:

Raspberry Pi, Sensors, Global position system, global system for mobile modules

Abstract

The leading-edge vehicle tracking and scanning system based on embedded board is intended and executed to observe any vehicle from different locations. Every year, many numbers of vehicles are stolen. To prohibit thievery, a phenomenal type of negator is preowned, like padlock, disk break lock and more which is a defensive motion, but it is not safe for all designs. The main impartial is to initiate a control entity that shows the locale spot of a vehicle proving by global position system (GPS) to find the position. Here, global system for mobile (GSM) is accepting for communicating with the vehicle that easily finding a steal. The entity is built for trying out the mastery of the locale spot that transmits to the user when the motion is in exciting direction and stable in the city and some other areas. This whole entity is built by bringing together a Raspberry Pi with GPS, general packet
radio service (GPRS), and GSM. The preferred entity makes better use of unique automation that based on the Raspberry Pi. This entity works on the GPS and GSM SIM 900A modules which consists all the three things for communication. GPS and GPRS circulate the chasing information to the server to transmit the message to the mobile number which is saved in this sector for communicating through GSM. This preferred entity also acquires the traveler's protection by testing liquefied petroleum gas effused gas sensor MQ135 and temperature DS18B20 sensor.
 

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References

Kumar H, Kumar R. Availability and Handling of Data Received from the GPS Device: In the Vehicle Tracking. Advance Computing Conference (IACC), IEEE International; 2014. p. 245-9, 21-2.

Stalling W. Wireless Communication and Networks. 2nd ed. New Delhi: Prentice Hall of India; 2005.

Yo O, Polak JW, Noland RW, Park Y, et al. Integration of GPS and dead reckoning for real-time vehicle performance and emission. GPS Solutions. Vol. 4. Berlin: Springer; 1989.

Tsui JB. Fundamentals of Global Positioning System (GPS) Receivers. 1st ed. Chichester: John Willey & Sons Inc.; 2000.

Published

01-04-2017

How to Cite

Yeddula, R. R., and V. P. “INTERNET OF VEHICLES-BASED REAL-TIME VEHICLE TRACKING”. Asian Journal of Pharmaceutical and Clinical Research, vol. 10, no. 13, Apr. 2017, pp. 57-60, doi:10.22159/ajpcr.2017.v10s1.19559.

Issue

Section

Original Article(s)