THE DEVELOPMENT OF LOCATION BASED SERVICES MOBILE APPLICATION FOR PROVIDING HEALTH FACILITIES INFORMATION IN SOUTH JAKARTA

Dimas Bagus Prasetyo
Department of Informatics Engineering, Faculty of Industrial Technology Universitas Gunadarma
Indonesia
Lily Wulandari
Department of Informatics Engineering, Faculty of Industrial Technology Universitas Gunadarma
Indonesia

DOI: http://dx.doi.org/10.35760/ik.2018.v23i2.2352

Article Submitted: 04 February 2020

Article Published: 05 February 2020

Abstract

Location based services application for Android devices can help users to know the location of health facilities that are located in South Jakarta area quickly and efficiently. Through smartphone or Android-based mobile devices that have been connected to the Internet network, the user directly treated display a map showing the location of where users are located with a radius as a reference to show the location of the nearest health facilities of the location user. Software development model used to build applications in this research is a prototyping model. The steps taken include planning, data collection, requirement analysis, application design, implementation, and testing. Application testing has been done in two ways, namely using black box testing and user acceptance testing. The testing results of applications using black box testing performed on five Android mobile devices, and the results obtained show that the application can be run properly. Results obtained after rounding is 4.00, so it can be concluded that the user approve this application easy to use and can help in finding information about health facilities.

Keywords
Android, Health, Location Based Service (LBS), Prototyping
References

K. K. Wijaya, “Android dan browser opera dominasi pengguna mobile indonesia selama 2014,” 2015. [Online]. Available: http://id.techinasia.com/android-opera-dominasi-smartphone-indonesia-2014. [Accessed June, 2015]

N. A. Dar and A. A. Khan, “A system to track android devices: An implementation of lbs, location manager, services and web-services in android,” International Journal of Mathematics & Computing System, vol. 4, Issue 1, pp 49–54, 2013.

Academic Technology. API. [Online].Available: http://www.sjsu.edu/at/ec/canvas/API/. [Accessed January, 2015].

P. Doshi, “Location based services and integration of Google maps in android,” International Journal of Engineering and Computer Science, vol. 3, pp. 5072–5077, 2014.

Google Developer. Google Maps API, 2014. [Online]. Available: https://developers.google.com/maps/android/intro. [Accessed August, 2015].

G. Khurana and S, “Study & comparison of software development life cycle models,” International Journal of Research in Engineering & Applied Sciences, vol. 2, pp. 1513-1521, 2012.

M. Sharma, “How to use json to parse data into android application,” 2014. [Online].. Available: http://mrbool. com/how-to-use-json-to-parse-data-into-android-application/28944.[ Accessed January, 2015]

R. Sharma, “Developing for android - an introduction,” 2011. [Online]. Available: http://www.cprogramming.com/android_getting_started. Html. [Accessed July, 2015.].

Trav, “Android, MySQL, PHP, & JSON 1: Remote databases tutorial overview,” 2013. [Online]. Available: http://www.mybringback.com/android-sdk/12924/android-tutorial-using-remote-databases-php-and-mysql-part-1/. [Accessed January, 2015.]

S. Vanjire, “Location based services on smart phone through the android application,” International Journal of Advanced Research in Computer and Communication Engineering, vol. 3, Issue 1, 2014.

Information
PDF
372 times PDF : 272 times