Rekonstruksi bentuk lambung kapal dalam format tiga dimensi (3D) dengan teknik fotogrametri
DOI:
https://doi.org/10.35800/jitpt.9.1.2024.45751Abstract
Fishing boat has unique characteristics, such as seaworthiness, maneuvering, boat’s velocity, displacement, fishing gear layout, and catch storage facilities. With increasing development of photographic technology, photography is not merely an art but it has become a field of mathematics, making it a technique that can be integrated with software technology designed to produce digital data objects in the form of 3D images called Photogrammetric technique. This study is to obtain the reconstruction of the boat's hull based on the Photogrammetric software, to determine the effect of photography to obtain a 3D image, and to know the weakness and strength of 3D reconstruction of the boat’s hull. The images in this study were obtained using a POCO F3 smartphone camera integrated with the PIX4Dcatch application and analyzed with Agisoft Metashape Professional (Trial Version). From this research, we concluded that 1) the reconstruction of the boat hull can be obtained by using Photogrammetric techniques in the PIX4Dcatch application followed by the Agisoft Metashape Professional (Trial Ver.) software analysis; 2). With photographic equipment and several data processing software, the boat’s shape could be produced in 3D images, and 3). There are several advantages in reconstructing the ship's hull with the Photogrammetric technique, namely producing the ship's reconstruction of 3D images, obtaining the principal dimensions of the boat, such as the area and volume of the boat, that could be as the basic data for boat resistance and ship stability calculation, and the work could be done by one person only.
References
Agisoft Metashape Version 1.5. 2021. Agisoft Metashape User Manual. Agisoft Metashape, September, 160. https://www.agisoft.com/pdf/metashapepro_1_5_en.pdf
Andreas AS. 2017. Fotografi adalah Seni. Journal of Urban Society’s Arts. 4(1): 49-60.
Cattaneo C, Mainetti G, Sala R. 2015. The Importance of Camera Calibration and Distortion Correction to Obtain Measurements with Video Surveillance Systems. Journal of Physics: Conference Series. 658 (2015) 012009. https://iopscience.iop.org/article/10.1088/1742-6596/658/1/012009
H Suriadin, Angkasa P. 2021. Studi Kasus pada Metode dan Tahapan Pengenalan Perancangan Kapal Penangkap Ikan. Case Study on Design Method and Stages of Recognition Fishing Vessel. Jurnal Riset Kapal Perikanan. 11(1): 41-48.
H Priyono, S Aritonang, M Akbar. 2021. Desaign Ulang Lambung Kapal Unmanned Surface Vessel dengan Senjata pada Kapal Nirawak Dinas Penelitian dan Pengembangan TNI Angkatan Laut Menggunakan Program Komputasional untuk Meningkatkan Performa Guna Mendukung Operasi TNI Angkatan Laut. Jurnal Teknologi Daya Gerak. 4(1): 10-20.
Nelwan ECh, Pamikiran RDCh, Pangalila FPT. 2017. Studi Penggambaran Lambung Kapal dengan Teknik Fotografi dan Pantograf pada Kapal Prototype. Jurnal Ilmu dan Teknologi Perikanan Tangkap. 2(5): 200-204. DOI: https://doi.org/10.35800/jitpt.2.5.2017.15945
Tjiong, Susilo D, Yudo P, Nurhadi B. 2021. Analisis Pemodelan 3 Dimensi pada Metode Close Range Photogrammetry Menggunakan Free and Open Source Software. Jurnal Geodesi Undip. 10(1): 216-223.
W. Liu, YK Demirel, EB Djatmiko. 2018. Bilge Keel Design for the Traditional Fishing Boats of Indonesia's East Java. International Journal of Naval Architecture and Ocean Engineering. 11(1): 380-395. http://www.journals.elsevier.com/international-journal-of-naval-architecture-and-ocean-engineering/
Yamafune K. 2016. Using Computer Vision Photogrammetry (Agisoft PhotoScan) to Record and Analyze Underwater Shipwreck Sites [Thesis]. Filipe Castro. 199 pages. See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/312217662
Zainudin USN, Abdulah AH, Ismail NH. 2020. Geometric Modeling and Analysis of Passenger Ship Hull Model Using FreeShip Plus. Jurnal Mekanikal. 43: 27-40 https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/39
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Copyright (c) 2024 Evander Nelwan, Kawilarang W. A. Masengi, Vivanda O. J. Modaso, Alfred Luasunaung, Johnny Budiman, Fanny Silooy, Revols D. CH. Pamikiran
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