Assegaf, Miftachul Falach (2023) DADashboard Monitoring Level Permukaan Air Sungai Berdasarkan Data Level Air Dan Curah Hujan. Diploma thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Pekerjaan Umum Sumber Daya Air atau yang biasa disebut PUSDA Provinsi Jawa Timur merupakan unsur pelaksana otonomi daerah yang bertugas untuk meningkatkan konservasi dan meningkatkan pendayagunaan sumber daya air serta mengendalikan dan mengurangi resiko daya rusak air. Alat yang dimiliki PUSDA JATIM hanya dapat menampilkan angka dan grafik, sehingga tidak bisa melihat perubahan level permukaan saat terjadi hujan, saat ada kiriman air dari hulu sungai dan saat terjadi hujan serta ada kiriman air dari hulu sungai. Sehingga PUSDA JATIM membutuhkan sebuah dashboard sebagai pemantauaan pada system monitoring perubahan ketinggian permukaan level air. Dashboard monitoring akan menampilkan hasil perhitungan dari alat ukur AWLR dan curah hujan secara real time. Dashboard monitoring memiliki beberapa fitur, untuk admin yaitu injek data debit, download dan monitoring database, controlling perubahan level permukaan air, serta maintenance dashboard monitoring. Untuk user hanya dapat melakukan monitoring pada dashboard. Dashboard monitoring perubahan level permukaan air akan diletakkan di satu titik dari alat ukur yang dimiliki oleh PU SDA JATIM, untuk dapat melakukan monitoring maka data dari alat ukur AWLR dan curah hujan akan dimasukkan ke dalam database monitoring perubahan level air. Data dari alat ukur level air yang masuk ke database dashboard monitoring yaitu data per menit dengan rata-rata pembacaan data per detik, untuk data curah hujan yang konek ke database dashboard monitoring merupakan akumulasi dari waktu per 5 menit. Setelah data dari dua alat ukur sudah terintegrasi maka data bisa diolah dan melakukan perhitungan untuk dapat menghasilkan perubahan level permukaan air dengan 3 skenario. Pada dashboard monitoring masih terdapat bu di halaman perubahan level air untuk user. Hasil pengujian latency pada dashboard monitoring level air sangat baik yaitu nilai rata-rata <106 ms. Dashboard monitoring sangat layak digunakan berdasarkan uji performa dashboard yaitu jittern dan throughput yang memiliki hasil pengujian indek 4 yaitu sangat baik.
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Public Works Water Resources or commonly called PUSDA East Java Province is an implementing element of regional autonomy in charge of improving conservation and increasing the utilization of water resources as well as controlling and reducing the risk of water damage. The tool owned by PUSDA JATIM can only display numbers and graphs, so it cannot see changes in surface levels when it rains, when there is water delivery from upstream rivers and when it rains and there is water delivery from upstream rivers. So that PUSDA JATIM needs a dashboard as a monitoring system for monitoring changes in water level surface heights. The monitoring dashboard will display the calculation results from the AWLR measuring instrument and rainfall in real time. The monitoring dashboard has several features, for the admin, namely inputting debit data, downloading and monitoring databases, controlling changes in water levels, and maintaining monitoring dashboards. Users can only do monitoring on the dashboard. The dashboard monitoring of changes in water levels will be placed at one point from the measuring instrument owned by PU SDA JATIM, to be able to monitor, data from the AWLR measuring instrument and rainfall will be entered into the water level change monitoring database. Data from the water level measuring instrument that enters the monitoring dashboard database is data per minute with an average data reading per second, for rainfall data that connects to the monitoring dashboard database is an accumulation of time per 5 minutes. After the data from the two measuring instruments have been integrated, the data can be processed and calculated to produce changes in water levels with 3 scenarios. On the monitoring dashboard there is still a bu on the water level change page for the user. The latency test results on the water level monitoring dashboard are very good, namely the average value <106 ms. The monitoring dashboard is very feasible to use based on the dashboard performance test, namely jittern and throughput which have index 4 test results, which are very good.
| Item Type: | Thesis (Diploma) |
|---|---|
| Uncontrolled Keywords: | Dashboard Monitoring, Perubahan Level Air Sungai, Latensi, Monitoring Dashboard, Changes in River Water Level, IoT, Latency, |
| Subjects: | H Social Sciences > HD Industries. Land use. Labor > HD30.213 Management information systems. Dashboards. Enterprise resource planning. T Technology > TD Environmental technology. Sanitary engineering > TD890 Global Environmental Monitoring System |
| Divisions: | Faculty of Vocational > Instrumentation Engineering |
| Depositing User: | Miftachul Falach A |
| Date Deposited: | 11 Sep 2023 02:48 |
| Last Modified: | 11 Sep 2023 02:48 |
| URI: | http://repository.its.ac.id/id/eprint/104603 |
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