SISTEM INFORMASI PANDUAN TRAYEK ANGKUTAN UMUM BERBASIS MOBILE SMARTPHONE PADA DINAS PERHUBUNGAN JAKARTA

  • Heri Prabowo (1) Sistem Informasi STMIK Nusa Mandiri
  • Herlawati Herlawati (2*) Sistem Informasi STMIK Nusa Mandiri
  • Wida Prima Mustika (3) Sistem Informasi STMIK Nusa Mandiri

  • (*) Corresponding Author
Keywords: Dijkstra method, Sistem Informasi, Panduan Trayek Angkot, Mobile smartphones

Abstract

Public transport is an integral part of the city's transportation system and is a component whose role is very significant because the condition of the poor public transport system will cause a decline in the effectiveness and efficiency of public transport itself. Smartphone users or the public can use and take advantage of its mobile devices to be able to search for information about public transportation route and location of the place to be searched. Mobile applications natively public transportation route system is based on the PhoneGap framework and uses GoogleMaps as an interface map, the language he uses is HTML5, Javascript, JQuery Mobile. Algorithm method used is the Dijstra method. Dijkstra method can be used to determine the fastest path from a node. These properties can be applied to determine the trajectory path of nearby public transportation. The accuracy of the reading position ( Location Base Services ) on the map approximately 97 % of the radius of a meter scale map. The accuracy depends on GPS devices and mobile handsets speed internet bandwidth.

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References

Budiyanto, Utomo. 2011. Rancang Bangun Aplikasi Mobile Dosen Penasihat Akademik: Studi Kasus Universitas Budi Luhur Jakarta. ISSN: 2085-725X. Jakarta: Jurnal TELEMATIKA MKOM Vol 3, No. 02 September 2011.

Buana, Putu Wira. 2010. Penemuan Rute Terpendek Pada Aplikasi Berbasis Peta.ISSN: 2088-1541. Jakarta: Jurnal Lontar Komputer Vol 1, No. 01 Desember 2010.

Faiz, Hadi P Ahmad. 2007. Analisa Model Gravity dan analogi Fluida pada Trip

Distribusi Penumpang Angkutan Kota Trayek Terminal Bratang – JMP Surabaya. ISSN: 1907-753X. Surabaya: Jurnal Aplikasi Volume 2, Nomor. 1 Februari 2007.

Hasan, Yousuf, Mustafa Zaidi, Najmi Haider, W. U. Hasan, I. A min. 2012. Smart Phones Application Development Using HTML5 and relate technologies: A trade off between cost quality. ISSN: 1694-0814. Pakistan: Journal of Computer Science Vol 9, No. 03 May 2012.

Hermawan, Ade. 2012. 30 Software Yang Sedang Berkembang. Diambil dari http://www.adehermawan.com/2012_10_01_archive.html. (5 Januari 2014).

Junus, M. 2012. Sistem Pelacakan Posisi Kendaraan Dengan Teknologi GPS & GPRS Berbasis Web. ISSN: 1693-4024. Malang: Jurnal ELTEK Vol 10, No. 02 Oktober 2012.

JSON, Team. 2013. JSON. Diambil dari http://www.json.org/. (13 Januari 2014).

Kadir, Abdul. 2009. Membuat Aplikasi Web dengan PHP + Database Mysql. Yogyakarya: Andi.

Munir, Rinaldi. 2011. Algoritma Pemrograman dalam Bahasa Pascal dan C. Bandung: Informatika.

Prasetya, Didik Dwi. 2013. Membuat Aplikasi Smartphone Multiplatform. Jakarta: PT. Elex Media Komputindo.

Pressman, Roger S. 2010. Software Engineering A Practitioner's Approach 7th ed. Amerika: Mc Graw Hill.

Sugiyono. 2006. Statistika untuk Penelitian. Bandung: Alfabeta.

Sukamto, Rosa Ariani. dan Muhammad Shalahuddin. 2013. Rekayasa Perangkat Lunak Terstruktur dan Berorientasi Objek. Bandung: Informatika.
Published
2014-03-15
How to Cite
Prabowo, H., Herlawati, H., & Mustika, W. (2014). SISTEM INFORMASI PANDUAN TRAYEK ANGKUTAN UMUM BERBASIS MOBILE SMARTPHONE PADA DINAS PERHUBUNGAN JAKARTA. Jurnal Pilar Nusa Mandiri, 10(1), 56-71. https://doi.org/10.33480/pilar.v10i1.463
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