Authors:

I Putu Arya Patrama Khrisna Putra, Ni Nyoman Sulastri, I Made Anom Sutrisna Wijaya, I Putu Gede Budisanjaya, Gusti Bagus Dwi Anugrah Harimurti

Abstract:

“ABSTRAK Sistem irigasi subak masih memiliki keterbatasan dalam pencatatan dan pengelolaan data debit irigasi. Sehingga, dibutuhkan sistem informasi yang mampu menampilkan data digital debit air irigasi serta dapat diakses melalui website. Tujuan dari penelitian adalah merancang sistem informasi yang responsif, fleksibel, dan mudah diakses, membangun pelayanan data debit secara live dalam bentuk diagram batang, serta menguji fitur dan aksesibilitas. Perancangan sistem pada penelitian ini dilakukan dengan tahapan sebagai berikut, mengidentifikasi masalah dari sisi pengguna, merancang algoritma sistem, mengintegrasikan framework dan API, melakukan hosting, serta melakukan pengujian dengan black-box testing. Seluruh perancangan sistem tersebut mengikuti metode air terjun (waterfall model). Sistem yang berhasil dirancang memiliki tujuh fitur yaitu, informasi website, data debit secara otomatis dari alat IM-Logger, data debit dengan pengukuran manual, berita subak, galeri subak, login, dan fitur informasi berbasis WhatsApp. Pada penelitian dilakukan pengujian terhadap responsivitas fitur, fleksibilitas sistem, dan aksesibilitas sistem terhadap berbagai perangkat. Hasil pengujian menunjukkan seluruh fitur yang diuji memiliki responsivilitas dan kecepatan yang baik. Pada fitur data digital debit irigasi dapat ter-update secara konsisten dan berhasil dikonversi menjadi diagram batang. Pengujian fleksibilitas sistem mendapatkan nilai sangat baik dengan hasil persentase kesesuaian sebesar 100% pada perangkat berlayar lebar dan 93.8% pada perangkat berlayar sempit. Pengujian aksesibilitas, sebanyak 59.66% persen responden menyatakan aksesibilitas sistem ini baik, 39.98% sangat baik, dan 0.6% kurang baik. Berdasarkan keseluruhan hasil pengujian sistem informasi, dapat disimpulkan bahwa sistem sudah berfungsi dengan responsif, fleksibel dan mudah diakses. ABSTRACT The subak irrigation system still needs to be improved in recording and managing irrigation discharge data. Thus, an information system is required to display digital data on irrigation water discharge, which can be accessed via the website. The research aimed to design a responsive, flexible, and easily accessible information system, to build a live discharge data service in the form of a bar chart, and to test the features and accessibility of the information system. System design in this study was carried out in the following stages, identifying problems from the user side, designing system algorithms, integrating frameworks and API, hosting, and conducting black-box testing. The entire system design followed the waterfall model. The system has seven features: website information, automatic discharge data from the IM-Logger tool, discharge data with manual measurements, subak news, subak gallery, login, and WhatsApp-based information features. This study tested features responsiveness, flexibility, and system accessibility for various devices. The test results showed that all the features tested had good responsiveness and speed. In the digital data feature, irrigation discharge could be updated consistently and successfully converted into a bar chart. The system flexibility test obtained a very good score, with 100% and 93.8 % conformity percentages for wide and narrow screen devices, respectively. In the accessibility test, 59.66% of respondents stated that the accessibility of this system was good, 39.98% was very good, and 0.6% was not good. Based on the overall results, it can be concluded that the information system functions responsively, and flexibly, and is easily accessible.”

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References

  • Asmara, J. (2019). Rancang Bangun Sistem Informasi Desa Berbasis Website (Studi Kasus Desa Netpala). Jurnal Pendidikan Teknologi Informasi (JUKANTI), 2(1), 1–7.
  • Bell, T. E., & Thayer, T. A. (1976). Software Requirements: Are They Really a Problem. IEEE Computer Society Press, 61–68. https://doi.org/10.5555/800253.807650
  • Bendre, M. R., Thool, R. C., & Thool, V. R. (2016). Big data in precision agriculture: Weather forecasting for future farming. Proceedings on 2015 1st International Conference on Next Generation Computing Technologies, NGCT 2015, September, 744–750. https://doi.org/10.1109/NGCT.2015.7375220
  • Casteren, W. Van. (2017). The Waterfall Model And The Agile Methodologies : A Comparison By Project Characteristics-Short The Waterfall Model and Agile Methodologies. Academic Competences in the Bachelor, February, 10–13. https://doi.org/10.13140/RG.2.2.36825.72805
  • Data, M., Yahya, W., & Kurniawan, A. (2020). Implementasi Teknologi Virtualisasi Berbasis Kontainer untuk Perangkat Internet of Things pada Pertanian Presisi. Cybernetics, 3(01), 1. https://doi.org/10.29406/cbn.v3i01.1448
  • Davis, A. P., & Wilson, H. M. (2015). Irrigation Engineering. Creative Media Partners.
  • Fadhana, C., Anwar, & Nasir, M. (2019). Rancang Bangun Sistem Mobile Learning Sebagai Media Pembelajaran Dengan Metode Pengujian Black Box Testing. Jurnal Teknologi Rekayasa Informasi Dan Komputer, Vol.2 No.2.
  • Fernando, D. (2018). Visualisasi Data Menggunakan Google Data Studio. National Seminar on Information Technology Engineering, 1(1), 71–77. https://e-jurnal.lppmunsera.org/index.php/snartisi/issue/view/100.
  • Firdaus, A., Widodo, S., Sutrisman, A., Fadhilah Nasution, S. G., & Mardiana, R. (2019). Rancang Bangun Sistem Informasi Perpustakaan Menggunakan WEB Sevice Pada Jurusan Teknik Komputer Polsri. Jurnal Informatika, 5(2), 81–87.
  • Hamilton, K., & Miles, R. (2006). Learning UML 2.0. In Journal of Chemical Information and Modeling (Vol. 53, Issue 9). O’Reilly Media.
  • Heideker, A., Ottolini, D., Zyrianoff, I., Neto, A. T., Salmon Cinotti, T., & Kamienski, C. (2020). IoT-based Measurement for Smart Agriculture. 2020 IEEE International Workshop on Metrology for Agriculture and Forestry, MetroAgriFor 2020 - Proceedings, 68–72. https://doi.org/10.1109/MetroAgriFor50201.2020.9277546.
  • Ibnu, L. D. (2018). Rancang bangun sistem informasi penjualan sepatu berbasis website dengan metode waterfall. Jurnal Swabumi, 6(1), 55–62. http://www.ejournal.unsa.ac.id/
  • Pasandaran, E., Syakir, M., Muhammad, & Yufdy, P. (2018). Sinergi Inovasi Memperkuat Pertanian Rakyat Berbasis Tanaman Pangan dan Hortikultura. In IAARD PRESS, Badan Penelitian dan Pengembangan Pertanian.
  • Phupattanasilp, P., & Tong, S. R. (2019). Augmented reality in the integrative internet of things (AR-IoT): Application for precision farming. Sustainability (Switzerland), 11(9). https://doi.org/10.3390/su11092658.
  • Popović, T., Latinović, N., Pešić, A., Zečević, Ž., Krstajić, B., & Djukanović, S. (2017). Architecting an IoT-enabled platform for precision agriculture and ecological monitoring: A case study. Computers and Electronics in Agriculture, 140, 255–265. https://doi.org/10.1016/j.compag.2017.06.008.
  • Prawerti, D. A. D., Mahagiri, D. G. A., Saputra, I. P. A. A., & Muliarta, I. N. (2022). Peran Kelompok Subak dalam Pelestarian Air Melalui Upacara Mendak Toya. Prosiding Pekan Ilmiah Pelajar (PILAR), 624–632.
  • Riduwan, & Warsiman. (2008). Skala pengukuran variabel-variabel penelitian. Bandung : Alfabeta.
  • Rouf, A., & Agustiono, W. (2021). Literature Review : Pemanfaatan Sistem Informasi Cerdas Pertanian Berbasis Internet of Things ( IoT ). Journal Teknologi Dan Informatika, 9(1), 45–54.
  • Setiawan, R. (2021). Black Box Testing Untuk Menguji Perangkat Lunak. Dicoding Indonesia. https://www.dicoding.com/blog/black-box-testing/. Diakses pada 06 Desember 2022.
  • Syukron, A., & Hasan, N. (2017). Perancangan Sistem Rawat Jalan Berasis web Pada Puskesmas Winong. Bianglala Informatika, 3(1), 28–34.
  • Waller, P., & Yitayew, M. (2016). Irrigation and Drainage Engineering. Springer International Publishing Switzerland. https://doi.org/10.1007/978-3-319-05699-9.
  • Wardana, I. W. K., Widyantara, I. M. O., & Wirastuti, N. D. (2020). Prototype Sistem Irigasi Subak berbasis Fuzzy Logic Menggunakan Wireless Sensor Network. Majalah Ilmiah Teknologi Elektro, 19(2), 133. https://doi.org/10.24843/mite.2020.v19i02.p02.
  • Yastrawan, I. G. N. M., Suamba, I. K., & Sarjana, I. M. (2022). Perilaku Petani terhadap Pelaksanaan Tri Hita Karana dalam Upaya Pelestarian Subak Daerah Pariwisata ( Kasus Subak Andong , Kecamatan Ubud , Kabupaten Gianyar ). Jurnal Agribisnis Dan Agrowisata, 11(2), 747–753. https://doi.org/https://doi.org/10.24843/JAA.2022.v11.i02.p24

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Published

2023-07-04

How To Cite

PUTRA, I Putu Arya Patrama Khrisna et al. Rancang Bangun Sistem Informasi Ketersediaan Air Irigasi Subak Berbasis JavaScript.Jurnal BETA (Biosistem dan Teknik Pertanian), [S.l.], v. 12, n. 1, p. 53-62, july 2023. ISSN 2502-3012. Available at: https://jurnal.harianregional.com/beta/id-100580. Date accessed: 08 Jul. 2024.

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Issue

Vol 12 No 1 (2024): IN PRESS

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Articles

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