Kajian Perbandingan Akurasi DTM Pengolahan Data Foto Udara Menggunakan Metode Otomatis Dan Semi-Otomatis Filtering
Abstract
Advances in UAV technology produce various superior products that can be utilized for the development and analysis of natural dynamics. One of them is DTM which is a visual representation of the shape of the ground surface that is displayed in 3 dimensions. DTM is obtained from the results of DSM filtering, where all features above the ground are digitally removed using a certain method. To produce a good DTM, a good quality DSM is needed, therefore a Horizontal and Vertical accuracy analysis was carried out based on ASPRS 2015. In this study, two software with different data processing methods were used, namely automatic filtering and semi-automatic filtering from DSM to DTM. To determine the quality of DTM, spot-height data is used as a comparison which is considered to be the actual form in the field. From the series of data processing processes, DTM results were obtained which were then tested for accuracy utilizing statistical validation tests using the calculation of RMSEZ values and non-statistical validation tests (Visual) using the transverse profile method. The test results show that the DTM produced by the PCI Geomatica software with the semi-automatic filtering method has more accurate and precise quality than the DTM from the SAGA GIS software with the automatic filtering method with an elevation value of 1,249 m and RMSEz 3,542 m to the spot-height. Then the visualization of the DTM transverse profile produced by the PCI Geomatica software semi-automatic filtering method to the spot height also does not appear to experience a significant difference where the elevation at Point 1 is 0.5 m and Point 2 is 0.5 m.
Keywords
Full Text:
PDFReferences
ASPRS. (2015). Positional Accuracy Standards for Digital Geospatial Data. Photogrammetric Engineer and Remote Sensing, 81(3), A1-A26.
BIG. (2020). Peraturan Badan Informasi Geospasial Republik Indonesia Nomor 1 Tahun 2020 Tentang Standar Pengumpulan Data Geospasial Dasar Untuk Pembuatan Peta Dasar Skala Besar.
Duantari, N., & Cahyono, B. A. (2017). Analisis Perbandingan DTM (Digital Terrain Model) dari LIDAR (Light Detection and Ranging) dan foto udara dalam pembuatan kontur peta rupa bumi Indonesia. Jurnal Teknik ITS, 6(2), A699-A703
Fauzan, M. R. M., Jupri., & Ridwana, R. (2021). Pengukuran Topografi Untuk Pembangunan Penampungan Air Bersih (Studi Kasus: Daerah Rajamandala, Kabupaten Bandung Barat). Jurnal Pendidikan Dan Ilmu Geografi, 6(1), 35-48.
Franstein K. J. B., Prasetyo, Y., & Sukmono, A. (2019). Aalisis Akurasi DTM Hasil Ekstraksi Data Pemetaan Airborne Lidar Skala Besar Menggunakan Algoritma Cloth Simulation Filtering, Parameter-Free Ground Filtering Dan Simple Morphological Filtering Terhadap Slope Based Filtering. Jurnal Geodesi Undip, 8(4), 195-204.
Harfan, A., Yudhatama, D., & Bachrodin, I. (2019). Pemanfaatan Metode Fotogrametri Untuk Pengukuran Garis Pantai Dan Identifikasi Objek-Objek Tematik Dengan Menggunakan Wahana UAV (Unmanned Aerial Vehicle) (Studi Kasus Pengukuran Garis Pantai Di Pangkalan TNI AL Pondok Dayung). Jurnal Chart Datum, 5(1), 71-84.
Khomsin., Anjasmara, M. I., & Romadhon, R. (2019). Analisis Ketelitian Hasil Pengamatan GNSS Metode Radial Berdasarkan Lama Pengamatan Untuk Efisiensi Pengukuran Ground Control Point. Geoid Journal Of Geodesy And Geomatics, 15(1), 89-96.
Martiana, N. D., Prasetyo, Y., & Wijaya, P. A. (2017). Analisis Akurasi DTM Terhadap Penggunaan Data Point Clouds Dari Foto Udara Dan LAS Lidar Berbasis Metode Penapisan Slope Based Filtering Dan Algoritma Macro Terrasolid. Jurnal Geodesi Undip, 6(1), 293-302.
Muhammad, M., & Tahar, N. K. (2021). Comprehensive Analysis of UAV Flight Parameters for High Resolution Topographic Mapping. IOP Conf. Series: Earth and Environmental Science, 767, 1-6. doi:10.1088/1755-1315/767/1/012001.
Pepe, M., Costantino, D., Alfio, S. V., Cartellino, E., & Vozza, G. (2021). A Novel Method Based on Deep Learning, GIS and Geomatics Software for Building a 3D City Model from VHR Satellite Stereo Imagery. ISPRS International Journal Of Geo-Information, 10(697), 1-17.
Putra, P. D. (2016). Pembuatan Peta Orthophoto Pemotretan Udara Dengan Fixed Lens Menggunakan Pesawat UAV (Unmanned Aerial Vehicle). Skripsi. Teknik Geodesi, Institut Teknologi Nasional, Malang.
Riadi, S. (2015). Pembuatan Peta Topografi Skala Besar Secara Fotogrametris Dengan Memanfaatkan Foto Udara UAV Kamera Non-Metrik. Skripsi. Teknik Geodesi, Institut Teknologi Nasional, Malang.
Wirantiko, M., Handayani, H. H., & Cahyono, B. A. (2021). Studi Pembuatan DTM Menggunakan Metode Slope Based Filtering dan Grid Based Filtering (Studi Kasus: Kelurahan Wonokromo Dan Lontar, Kota Surabaya). Geoid Journal Of Geodesy And Geomatics, 16(1), 46-56.
DOI: https://doi.org/10.34312/jgeosrev.v4i1.12046
Copyright (c) 2022 Author
This work is licensed under a Creative Commons Attribution 4.0 International License.