Remotely Operated Vehicle (ROV) Untuk Eksplorasi Bawah Air Di Lingkungan Industri Perkapalan

R A Septian; A Rahmania; M I Nugraha; Yudhi Yudhi

doi:10.33504/manutech.v9i02.41

Authors

R A Septian
A Rahmania
M I Nugraha
Yudhi Yudhi

DOI:

https://doi.org/10.33504/manutech.v9i02.41

Keywords:

ROV, Arduino, Thruster, CCD camera

Abstract

Remotely Operated Vehicle (ROV) is one of the robots that are being developed in Indonesia for exploring underwater potential. In this final project, the ROV was designed and controlled by Arduino for diving underwater with maximum depth of 30 meters. The application of ROV is that to take pictures and record video of underwater environment in real time by using camera monitored through a PC. The construction and the electronics device of the ROV were made waterproof. The actuator used was bilge pump motor 1100GPH 12 Volt as thruster motor. The thruster driver used was a two channel-relay and the vision system of robot was a CCD camera. Based on the results, it was obtained that the ROV was able to move according to the commands provided by operator using a remote control. At three meters depth, the robot can move forward with average speed of 0.161m/s. For up and down movement at 3 meters depth, the robot can go up with average speed of 0.09 m/s and down with average speed of 0.17 m/s. From the data, it can be concluded that the ROV can maneuver and use the camera properly.

Downloads

Download data is not yet available.

References

[1]. R. Petrus, Menengok Masa Depan Dunia Robotika Indonesia, diakses pada 15 Desember 2016
Available : http://www.voaindonesia.com/a/menengok-masa-depan-dunia-robotikaindonesia/3376735.html.
[2] D. Daniel, Menjelajah Bawah Laut Dengan Mini ROV, diakses tanggal 23 Februari 2017, Available :
http://www.p3tkp.litbang.kkp.go.id/index.php/litbang/inovasi-dan-hasil-penelitian/63-menjelajahbawah-laut-dengan-mini-rov.
[3] E. Novina, Cara Kerja ROV, Alat Pencari Air Asia QZ8501, diakses tanggal 22 Februari 2017,
Available : http://nationalgeographic.co.id/berita/2015/01/cara-kerja-rov-alat-pencari-airasiaqz8501.
[4] P.A. Tipler, Alih bahasa : Lea Prasetio dan Rahmad W. Adi, Fisika untuk Sains dan Teknik. Edisi
Ketiga : Cetakan 1 . Jakarta : Erlangga. Hal : 383 – 398, 1998.
[5] Fisika Zone. Collage Loan Consolidation. Hukum Archimedes, diakses tanggal 12 Maret 2017,
Available : http://fisikazone.com/hukum-archimedes/.
[6] Young, H.D. dan R.A. Freedman, Sears and Zemansky Fisika Univertas Edisi 10 Jilid 2, Jakarta:
Erlangga, 2003.
[7] Gitakarma, M.S., Ariawan, K.U., Wigraha, N.A, Alat Bantu Survey Bawah Air menggunakan Amoba,
Robot Berbasis ROV. 3 (2) : 392-409, 2014.