Paper Status Tracking

Journals by Title

Journals by Subject

Contact us

	[email protected]
	3275638434

	Paper Publishing WeChat

Useful Links

Creative Commons Attribution-NonCommercial 4.0 International License

Article

Open Access

Vehicle Speed Observation Models Based on the Data on the Smartphone GPS

Author(s)

Gede Herdian Setiawan, I Made Oka Widyantara and Made Sudarma

Full-Text PDF Download XML 3027 Views

DOI:10.17265/1934-7332/2016.06.004

Affiliation(s)

Magister Electrical Engineering Department, Engineering Faculty and Udayana University, Denpasar, Bali, Indonesia

ABSTRACT

The development of GPS (global positioning system) receiver now can be integrated on a smartphone. GPS receiver on smartphones has been developed for location-based applications. Smartphones are very suitable to be used as an experimental tool, because smartphones are usually equipped with various types of sensors. This paper proposes a model observation vehicle speed on a road section based on the GPS data on the smartphone. Observations made by calculating the speed of the speed of vehicles moving through the data transfer at the GPS location of the smartphone, the data are then sent periodically to the server and server processing and storage of vehicle speed data. After tested with test reliability indicators use RMSE, observations with model observations speed, speed based on GPS data on a smartphone are relevant when compared with the speed directly from the vehicle’s speedometer with the difference between the value of the difference of speed that is 3.1785 km/h.

KEYWORDS

GPS, smartphone, vehicle speed, observations

Cite this paper

References

[1] Shintal, M., Dharro, V. D., and Kantilal. P. R. 2015. “Intelligent Bus Stand Monitoring and Control Using Combination of GSM, GPS & IR Sensor.” IJIRSET 4 (7): 5646-9.
[2] Ruimin, L., Geoffrey, R., and Majid, S. 2006. “Evaluation of Speed-Based Travel Time Estimation Models.” Journal of Transportation Enginering ASCE 132 (7).
[3] I Made Oka Widyantara, and Nyoman Putra Sastra. 2015. “Internet of Things for Intelligent Traffic Monitoring System: A Case Study in Denpasar.” IJCTT 30 (3): 169-73.
[4] Hannan, M. A., and Mustapha, A. M. 2011. “Implementing Bus Identification and Monitoring System.” Electrical, Control and Computer Engineering (INECCE), 2014.
[5] Avinas, H., Meghana Illur, Prakteek V Shetti, Padmini Avadhani, P., and Geethalaxmi. 2016. “Map Land Surveying System.” Imperial Journal of Interdisciplinary Research (IJIR) 2 (5).
[6] Dekreneris. 2010. “Integrating GIS, GPS and GSM Technologies for the Effective Management of Ambulances.” Computer Environment and Urban System 25 (3): 267-78.
[7] Kuhn, J., and Vogt, P. 2013. “Application and Examples of Experiments with Mobile Phone and Smartphone in Physics Lessons.” Frontier in Sensor (FS) 1 (4): 67-73.
[8] Giovanni, P., and Valerio Mario, S. 2012. “A GPS Based Architecture to Control Bus Trough an IOS Application.” Kore University of Enna, Italy. http://isad12s.guap.ru/files/publications/if2011/pau.pdf.
[9] Xiao, L., and Wang, Z. 2011. “Internet of Things: A New Application for Intelligent Traffic Monitoring System.” Journal of Network 6 (6): 887-94.