Perancangan Basis Data Katalog Citra Satelit LAPAN
Abstract
Abstrak
Satelit LAPAN-A2/LAPAN-Orari dan LAPAN-A3/LAPAN-IPB telah menghasilkan sejumlah citra satelit sejak peluncuran di, Sriharikota India, pada tahun 2015 dan 2016. LAPAN berharap bahwa hasil tracking satelit membutuhkan media penyimpanan yang memungkinkan untuk menjadi lebih mudah diakses dan menarik bagi publik. Hasil citra sampai saat ini hanya tersimpan pada folder-folder dengan penamaan khusus. Metode tersebut cenderung manual dan menyulitkan operator untuk mencari citra dengan spesifikasi tertentu. Disamping itu, kebutuhan pengguna terhadap data citra pada waktu tertentu menjadi permasalahan utama. Stasiun bumi satelit LAPAN setiap hari secara rutin melakukan kegiatan akuisisi dan pengolahan data citra satelit LAPAN. Data citra satelit LAPAN hasil pengolahan di stasiun bumi ini kemudian diintegrasikan ke dalam satu sistem katalog dengan sinkronisasi informasi hasil pengolahan data. Oleh karena itu, fasilitas ini dirancang dan diimplementasikan untuk memenuhi persyaratan pengguna. Makalah ini akan memaparkan rancang bangun sistem baisis data katalog citra satelit LAPAN yang berbasis web dan near-real time. Sistem basis data katalog ini diharapkan dapat memudahkan pengguna di seluruh Indonesia untuk mengakses dan mengunduh data citra satelit LAPAN secara langsung.Disamping sebagai media penyimpanan, dengan menggunakan katalog citra berbasis web akan mempermudah Pusteksat untuk mendiseminasikan produk satelit LAPAN
Kata Kunci: Satelit, LAPAN-A2, LAPAN-A3, katalog, basis data
Abstract
The LAPAN-A2 / LAPAN-Orari and LAPAN-A3 / LAPAN-IPB satellites have produced a number of satellite imagery since the launch at, Sriharikota India, in 2015 and 2016. LAPAN hopes that the results of satellite tracking require storage media that allows it to be more accessible and attractive to the public. Image results to date have only been stored in folders with special names. The method tends to be manual and makes it difficult for operators to find images with certain specifications. In addition, user needs for image data at certain times become the main problem. The LAPAN satellite earth station routinely conducts acquisition and processing of LAPAN satellite image data every day. The LAPAN satellite image data from the processing at this earth station is then integrated into one catalog system by synchronizing information from the data processing. Therefore, this facility is designed and implemented to meet user requirements. This paper will describe the design of a web and near-real-time LAPAN satellite image catalog data analysis system. This catalog database system is expected to facilitate users throughout Indonesia to access and download LAPAN satellite image data directly. Aside from being a storage media, using a web-based image catalog will make it easier for Pusteksat to disseminate LAPAN satellite products.
Keywords: Satellite, LAPAN-A2, LAPAN-A3, catalogue, database
Keywords
Full Text:
PDF (Bahasa Indonesia)References
Adityawarman, D. (2016). Implementasi Problem Based Learning Untuk Meningkatkan Kemampuan Dalam Merancang Basis Data. Informatika
Connolly, T., & Begg, C. E. (2010). Database Systems: a practical approach to design, implementation, and management. Database Systems: a practical approach to design, implementation, and management.
Firmansyah, R., & Saidah, I. (2016). Perancangan Web Based Learning Sebagai Media Pembelajaran Berbasis ICT. Informatika
Hardhienata, S., & Dewi, M. K. (2009). Rancangan Dan Implementasi Galeri Video Pada Situs LAPAN Polar Satellites. JUTI
Hardhienata, S., Triharjanto, R. H., & Mukhayadi, M. (2011). LAPAN-A2 : Indonesian Near-Equatorial Surveilance Satellite. Presented at the 18th Asia-Pacific Regional Space Agency Forum (APRSAF), Singapore.
Linda, D. (2016). Merancang e-katalog Berbasis Website Sebagai Media Informasi pada Badan Perpustakaan Arsip dan Dokumentasi Daerah (BPAD) Lampung. Jurnal Sistem Informasi Dan Telematika.
Miyazaki, H., Iwao, K., & Shibasaki, R. (2012). Automated Construction of Coverage Catalogues of Aster Satellite Image for Urban Areas of the World. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences.
Saifudin, M. A., & Mukhayadi, M. (2013). LAPAN-A2 Attitude Control Strategy for Equatorial Surveillance Mission. In Proc. of the 9th IAA Symposium on Small Satellites for Earth Observation.
Setiyoko, A., Meiyanti, R., Nurbojatmiko, Syamsudin, Sensuse, D. I., & Noprisson, H. (2018). Satellite image catalog system improvement based on process innovation method. In AIP ConferenceProceedings. https://doi.org/10.1063/1. 5042871
Syafrudin, A. H., Hasbi, W., & Rahman, A. (2013). Camera payload systems for the LAPAN A2 experimental microsatellite. In 34th Asian Conference on Remote Sensing 2013, ACRS 2013.
DOI: https://doi.org/10.31294/ji.v5i2.4029
Refbacks
- There are currently no refbacks.
This work is licensed under a Creative Commons Attribution 4.0 International License.
Index by:
 |  |  |  |  |
 |  |  |  |  |
 |  |  |
Published by Department of Research and Public Service (LPPM) Universitas Bina Sarana Informatika with supported Relawan Jurnal Indonesia
Jl. Kramat Raya No.98, Kwitang, Kec. Senen, Kota Jakarta Pusat, DKI Jakarta 10450
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License