Pemodelan Stockpile Menggunakan Metode Fotogrametri Dengan Wahana Uav (Unmanned Aerial Vehicle) Di PT Triaryani
DOI:
https://doi.org/10.33536/jg.v9i02.1490Keywords:
photogrammetric method, coal volume, DEMAbstract
PT. Triaryani is a coal mining company that uses the open pit mining method, located in North Musirawas Regency, South Sumatra Province. In survey activities, this company uses two methods of measuring data, namely the terrestrial method and the photogrammetric method. The purpose of this study is to model the stockpile and calculate the volume of the stockpile quickly and precisely. The terrestrial method is used to measure the volume of overburden, while the photogrammetric method is used to measure the volume of coal in the stockpile. In this study, the focus is on measuring the volume of coal in the stockpile. Measurement using the photogrammetric method is a measurement method carried out using a UAV (Unmanned Aerial Vehicle) vehicle. This method is used by calculating the volume of coal using the Digital Elevation Model (DEM) which is formed from UAV aerial photo data. The DEM data is obtained from aerial data in the form of a single photo which is then converted in orthophoto form into DEM data. This method has several advantages, including ease of calculation and shortening the measurement time of coal volume. The results of this study are orthophoto and DEM models, and the total volume of coal in the PT. Triaryani stockpile is 20,313.3 m3 with a cross-sectional area of 11,375 m2 in this stockpile that can accommodate more than 25,000 tons.
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References
Belda, M, dkk. 2014. Climate Classification. Vol. 59:1-13. Climate Research.
BIG. 2014. Peraturan Kepala Badan Informasi Geospasial Nomor 15 Tahun 2014 tentang Pedoman Teknis Ketelitian Peta Dasar.
Budi, E. & Suyudi, B. 2017. Fotogrametri Terapan. Yogyakarta : STPN.
Fajar, T., dkk. 2016. Analisis Deformasi Dan Volumetrik Menggunakan Metode Pengamatan 3 Dimensi Unmanned Aerial Vehicle (Uav). Jurnal Geodesi UNDIP. Universitas Diponegoro.
KEPMEN ESDM Republik Indonesia No. 1827 K/30/MEM/2018 Tentang Pedoman Pelaksanaan Kaidah Teknik Pertambangan Yang Baik.
Koppen, W. 1923. Die Klimate der Erde. Grundriss der Klimakunde. Berlin : Walter de Gruyter.
LAPAN. (2015). Pustekbang LAPAN Bahas Regulasi Nasional UAV.http://www.lapan.go.id/index. php/subblog/read/2015/1848/Pustekbang-LAPAN-Bahas-Regulasi-Nasional-UAV. Diakses pada tanggal 20 Desember 2020.
Santoso, B. 2004. Fotogrametri. Bandung : TGD ITB.
Simanjuntak, T.O., Surono, Gafoer, S., dan Amin, T.C. 1991. Geologi Lembar Muarabungo, Sumatra, Skala 1:250000. Bandung : Pusat Penelitian dan Pengembangan Geologi.
Sukmana, C.A. (2007): Seri Workshop Oleh Laboratorium Fotogrametri Dan Penginderaan Jauh. Teknik Geodesi : UGM.
Suwarna, N. & Suharsono. 1984. Laporan Geologi Lembar Bangko (Sarolangun), Sumatra. Laporan Terbuka. Bandung : Puslitbang Geologi.
Syaeful, B. 2007. Dasar-dasar Fotogrametri. Yogyakarta : Universitas Negeri Yogyakarta.
Tempfli, K. (1991): DTM and Differential Modeling, Dalam Suharyadi, R., Sapta, B., Purwanto, T.H., Rosyadi. R.I., Farda, N.M., Wijaya, M.S. (2012) : Petunjuk Praktikum Sistem Informasi Geografis : Pemodelan Spatial, Fakultas Geografi Universitas Gadjah Mada : Yogyakarta.
Utomo, B. 2017. Jurnal Drone Untuk Percepatan Pemetaan Bidang Tanah. Vol.18. No.2. FHIS UNDIKSHA dan IGL.
Wolf, Paul R. 1993. Elemen Fotogrametri Dengan Intepretasi Foto Udara dan Penginderaan Jauh, Edisi Kedua. Yogyakarta : Gadjah Mada UniversityPress.
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