IMPLEMENTASI WEBGIS UNTUK NAVIGASI RUTE DAN MONITORING HYDRANT PEMADAM KEBAKARAN DI KOTA MEDAN
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Abstract
Firefighting operations in Medan City still face significant challenges in locating and monitoring the condition of fire Hydrants: out of 118 Hydrant points, only 23 are documented as operational and just 6 are fully functional. This study aims to design and implement a web‑based WebGIS for the fastest route navigation to the nearest Hydrant and real‑time Hydrant condition Monitoring, employing an iterative Prototype methodology. The system is built using PHP & MySQL on the backend, Leaflet.js for interactive mapping and Routing, and AJAX for seamless data Updates. Functional testing (black‑box) confirms all modules Admin Login, Hydrant CRUD, “Nearest Hydrant” Routing, status Updates, and map Refresh operate as expected with average AJAX response times of 0.3 - 0.5 seconds and map load times under 1.5 seconds for 200 points. Field accuracy tests reveal a coordinate deviation of ± 3 meters, while Hydrant search time is reduced from an average of 2 minutes manually to approximately 15 seconds digitally. The responsive interface supports both desktop and mobile access, optimally serving Admin and Field Officer needs. Thus, the system demonstrably enhances firefighting response efficiency and Hydrant data accuracy in Medan City.
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This work is licensed under a Creative Commons Attribution 4.0 International License.
References
[2] Burrough, P. A., & McDonnell, R. A. (2021). Principles of geographical information systems. Oxford University Press.
[3] Peng, Z., Taufik, M. H., Putra, P. A., & Fadillah, M. (2022). WebGIS untuk jalur evakuasi bencana kebakaran. Jurnal Ilmu Komputer Terapan, 6(2), 48–56.
[4] Rohmat, F. S., & Wibowo, I. D. (2021). Prototyping dalam pengembangan sistem informasi geospasial. Jurnal Sistem Informasi, 17(3), 120–129.
[5] Sofi, N., & Ramadhan, D. (2022). Perancangan aplikasi bengkel CSM berbasis Android menggunakan framework Flutter (Bahasa Dart). Jurnal Teknik dan Science, 1(2), 53–64.
[6] Daud, J., & Hidayat, F. (2024). Penggunaan XAMPP dalam pengembangan aplikasi web. Jurnal Teknologi Informasi, 9(4), 112–118.
[7] Andani, M. (2021). Sistem informasi pelayanan kependudukan Desa Lecah berbasis web menggunakan PHP dan MySQL. Jurnal Sistem Informasi Mahakarya, 4(1), 15–27.
[8] Asenan, A. D. T., & Mulyadi, M. A. (2024). Sistem informasi geografis lahan dan irigasi pertanian Desa Sugihwaras menggunakan Leaflet. JATI (Jurnal Mahasiswa Teknik Informatika), 8(3), 3208–3215.
[9] Andani, M. (2021). Sistem informasi pelayanan kependudukan Desa Lecah berbasis web menggunakan PHP dan MySQL. Jurnal Sistem Informasi Mahakarya, 4(1), 15–27.
[10] Asenan, A. D. T., & Mulyadi, M. A. (2024). Sistem informasi geografis lahan dan irigasi pertanian Desa Sugihwaras menggunakan Leaflet. JATI (Jurnal Mahasiswa Teknik Informatika), 8(3), 3208–3215.
[11] Ihramsyah, I. Y. V., & Junaidi, J. (2023). Perancangan aplikasi sistem informasi penjualan makanan cepat saji berbasis web: Studi kasus Kedai Cheese Box. Jurnal Widya, 4(1), 117–139.
[12] Wal Ikram, D. J., Sadrin, A. R., Moeis, D., & Rosnani. (2025). Implementasi Algoritma Apriori Untuk Analisis Persediaan Material Di Warehouse PT. Telkom Akses Makassar. Jurnal Informatika Progres, 17(1), 52-62. https://doi.org/10.56708/progres.v17i1.453