Pembuatan Prototipe Augmented Reality Untuk Keselamatan Navigasi Pelayaran (Studi Kasus: Perairan Selat Madura)

Nugraha, Aditya (2021) Pembuatan Prototipe Augmented Reality Untuk Keselamatan Navigasi Pelayaran (Studi Kasus: Perairan Selat Madura). Undergraduate thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Perkembangan peningkatan teknologi di era Revolusi Industri 4.0 telah menghubungkan manusia dan mesin melalui rekayasa intelegensia dan IoT (Internet of Things), salah satunya yaitu teknologi AR (Augmented Reality), sebuah teknologi interaktif yang mampu memproyeksikan objek maya ke dalam objek nyata secara real time. Mengambil studi kasus di Selat Madura, dengan ribuan kapal melintas tiap tahunnya dan kondisi nelayan yang kurang edukasi mengenai navigasi pelayaran, maka teknologi ini dapat dijadikan sebagai langkah awal berkembangnya teknologi navigasi demi pelayaran yang aman. Penelitian ini bertujuan untuk membuat prototipe AR berdasarkan peta laut dalam mengakomodasi kebutuhan keselamatan navigasi pelayaran. Peta laut yang digunakan akan dilakukan proses digitasi dan pembuatan model 3D yang menyesuaikan dengan sistem buoy internasional. Kemudian akan dilakukan pembuatan UI/UX agar aplikasi yang dibuat menjadi ramah dan interaktif terhadap user. Hasil penelitian ini menghasilkan 2 buah aplikasi Android mobile yang memuat prototipe AR dengan sistem berbasis gambar, mampu melakukan simulasi menggerakkan kapal untuk mempelajari sistem buoy, serta terintegrasi dengan GPS. Dalam pembuatannya, prototipe AR juga mengaplikasikan standar IHO S-100 yang didokumentasikan melalui skema UML (Unified Modeling Language) diagram use-case. Berdasarkan hasil uji usabilitas, aplikasi yang diberi nama MARS (Marine Augmented Reality System) memperoleh nilai 83.71%. Nilai tersebut melalui tabel kelayakan Likert (1932) menunjukkan bahwa aplikasi yang telah dibuat sangat layak untuk dipakai.
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The development of technological improvements in the Industrial Revolution 4.0 era has connected humans and machines through intelligence engineering and IoT (Internet of Things), one of which is AR (Augmented Reality) technology, an interactive technology that is able to project virtual objects into real objects in real time. Taking a case study in the Madura Strait, with thousands of ships passing each year and the condition of fishermen who are less educated about shipping navigation, this technology can be used as the first step in developing navigation technology for safe shipping. This study aims to create an AR prototype based on nautical maps to accommodate the safety needs of shipping navigation. The sea map used will be digitized and 3D modelled according to the international buoy system. Then the UI/UX will be made so that the application made is friendly and interactive to the user. The results of this study resulted in 2 Android mobile applications containing an AR prototype with an image-based system, capable of simulating moving ships to study the buoy system, and integrated with GPS. In its manufacture, the AR prototype also applies the IHO S-100 standard which is documented through a UML (Unified Modeling Language) use-case diagram. Based on the results of the usability test, the application named MARS (Marine Augmented Reality System) obtained a score of 83.71%. This value through the Likert (1932) feasibility table shows that the application that has been made is very feasible to use.

Item Type: Thesis (Undergraduate)
Uncontrolled Keywords: Peta Laut, Augmented Reality, Prototipe, Keselamatan Navigasi Pelayaran, Uji Usabilitas, Navigation Chart, Augmented Reality, Prototype, Safety Naval Navigation, Usability Test
Subjects: G Geography. Anthropology. Recreation > G Geography (General) > G70.217 Geospatial data
Q Science > QC Physics > QC851 Coordinates--Measurement.
T Technology > T Technology (General) > T385 Visualization--Technique
T Technology > T Technology (General) > T58.8 Productivity. Efficiency
T Technology > TA Engineering (General). Civil engineering (General) > TA1637 Image processing--Digital techniques
Divisions: Faculty of Civil, Planning, and Geo Engineering (CIVPLAN) > Geomatics Engineering > 29202-(S1) Undergraduate Thesis
Depositing User: Aditya Nugraha
Date Deposited: 21 Aug 2021 14:12
Last Modified: 21 Aug 2021 14:12
URI: http://repository.its.ac.id/id/eprint/88282

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