PENGEMBANGAN SISTEM GPS TRACKER PADA RASPBERRY PI BERBASIS WEB
Keywords:
Google Maps API, GPS Tracker, NMEA, Raspberry Pi
Abstract
GPS technology has developed as position tracking system in real time named GPS Tracker and navigation
system. In this research, the GPS Tracker will be evolved using Raspberry Pi microcomputers and GPS
module. Port GPIO in Raspberry Pi is an interface allowing the microcomputer to interact with the outside
world. GPS Module is an instrument to capture the GPS signal emitted by minimum of 3 satellites, so that it
will derive a coordinate. Development of the GPS Tracker system is based on NMEA data format processed
to become coordinate data and stored into the Raspberry Pi database then continued by the visualization
process on map based web using Google Maps API integrated with application built. The result shows that the
GPS signal captured and stored into database has been able to be visualized on Google Maps API in real time
and the visualization marker moves, leaving a mark in every few seconds.
References
[1] Nataliana, D., 2013, Perancangan Dan Realisasi Sistem Transmisi Data GPS Menggunakan Teknologi SMS (Short Messaging Service) Sebagai Aplikasi Sistem Personal Tracking, Bandung,Institut Teknologi Nasional.
[2] Rusnandar., 2013, Sistem Pelacak Kendaraan Berbasis OpenGTS, Yogyakarta, Universitas Ahmad Dahlan.
[3] Ramadi, R., 2011, Pembuatan Aplikasi history perjalanan GPS Tracker berbasis Web pada handphone menggunakan J2ME,Jakarta, Universitas Islam Negri Syarif Hidayatullah.
[4] Lestari, U., 2013, Rancang Bangun Mobile Tracking Application Module untuk Pencarian Posisi Benda Bergerak Berbasis Short Massage Service (SMS), Yogyakarta, Institut Sains & Teknologi AKPRIND.
[5] Firando, A., 2014, Pemanfaatan Teknologi GPS dan Kompas dalam Pembangunan Aplikasi Friend Finder Berbasis Mobile pada Platform Android, Bandung, Universitas Komputer Indonesia.
[6] Ramadhian, R., 2014, Perancangan Alat Pengaman Kendaraan Bermotor Roda Dua Menggunakan RFID dan Pembacaan Letak Kendaraan menggunakan GPS Berbasis Mikrokontroller, Bandung, Universitas Komputer Indonesia.
[7] Parida, A. K., 2013, Android Application Development for GPS Based Location Tracker & NITR Attendance Management Sistem, Rourkela Odisha, India National Institute of Technology.
[8] Wennberg, M., 2011, GPS for use in Radar Verification and Tes, Sweden, University of Technology Goteborg.
[9] Davenne, D. A., 2013, GPS Tracker – Designing and Prototyping Hardware and Software, Finlandia, Turku University of Applied Sciences.
[10] Prapanca, A., 2015, Raspberry Pi, Surabaya, Universitas Negri Surabaya
[2] Rusnandar., 2013, Sistem Pelacak Kendaraan Berbasis OpenGTS, Yogyakarta, Universitas Ahmad Dahlan.
[3] Ramadi, R., 2011, Pembuatan Aplikasi history perjalanan GPS Tracker berbasis Web pada handphone menggunakan J2ME,Jakarta, Universitas Islam Negri Syarif Hidayatullah.
[4] Lestari, U., 2013, Rancang Bangun Mobile Tracking Application Module untuk Pencarian Posisi Benda Bergerak Berbasis Short Massage Service (SMS), Yogyakarta, Institut Sains & Teknologi AKPRIND.
[5] Firando, A., 2014, Pemanfaatan Teknologi GPS dan Kompas dalam Pembangunan Aplikasi Friend Finder Berbasis Mobile pada Platform Android, Bandung, Universitas Komputer Indonesia.
[6] Ramadhian, R., 2014, Perancangan Alat Pengaman Kendaraan Bermotor Roda Dua Menggunakan RFID dan Pembacaan Letak Kendaraan menggunakan GPS Berbasis Mikrokontroller, Bandung, Universitas Komputer Indonesia.
[7] Parida, A. K., 2013, Android Application Development for GPS Based Location Tracker & NITR Attendance Management Sistem, Rourkela Odisha, India National Institute of Technology.
[8] Wennberg, M., 2011, GPS for use in Radar Verification and Tes, Sweden, University of Technology Goteborg.
[9] Davenne, D. A., 2013, GPS Tracker – Designing and Prototyping Hardware and Software, Finlandia, Turku University of Applied Sciences.
[10] Prapanca, A., 2015, Raspberry Pi, Surabaya, Universitas Negri Surabaya
