Sistem Monitoring Keberadaan Covid-19 pada Air Menggunakan Biosensor dan Kecerdasan Buatan Berbasis Internet of Things
Abstract
Air merupakan sumber kehidupan bagi masyarakat, oleh karena itu kualitasnya perlu dijaga agar terhindar dari pencemaran limbah yang terkontaminasi COVID-19. Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) atau COVID-19 merupakan pandemic virus yang menyerang sistem pernapasan yang menular pada manusia. Oleh karena itu, diperlukan sebuah sistem yang dapat memonitoring dan mendeteksi keberadaan virus ini pada air. Deteksi dini terhadap air yang terkontaminasi oleh COVID-19 merupakan hal yang penting guna menyelesaikan permasalahan dalam penanganan kualitas air yang terkontaminasi virus atau tidak. Sistem monitoring yang diusulkan terdiri atas beberapa alat dan proses meliputi biosensor, mikrokontroler, klasifikasi menggunakan K-Nearest Neighbor (K-NN) untuk mendeteksi air terkontaminasi atau tidak, dan firebase sebagai penyimpan datanya. Hasil klasifikasi disimpan pada firebase dan ditampilkan pada aplikasi frontend sehingga dapat diakses oleh pengguna. Frontend juga menampilkan grafik yang mendeskripsikan kandungan air secara periodik dan ditampilkan acuan lokasi wilayah air yang tercemar oleh virus.
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[17] Manurung, RV, Kurniawan, ED & Hidayat, J, n.d., “Desain dan Fabrikasi Elektroda Biosensor: Metode Teknologi Film”, Tebal 3, 6, 2012
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[19] Syafindra, D, Budi, S, & Sugihartono, I., “Rancang Bangun Sistem Potensiostat Menggunakan Arduino Uno”, 1-9, 2017.
[20] Andriani, Nila. “Apa itu Mirokontroler?”, 2019. http://himti.budiluhur.ac.id/apa-itu-microcontroller, diakses 13 Agustus 2020.
[21] Arduio Uno, http://radypurbakawaca.staff.unja.ac.id/2017/08/ 20 /lets-familiar-arduino-uno/ , diakses 5 Agustus 2020.
[22] Ramadhan, DF, Nugraheni, SK & Abkary, NM., “Arduino Uno, LDR dan Konsep Larutan Elektrolit untuk Alat Pendeteksi Air Tidak Layak Konsumsi”, 9, 2018.
[23] Power Supply https://www.satistronics.com/shop/product/1941 926-mcu-219-ina219-i2c-bi-directional-dc-current-power-supply-sensor-module-79321 , diakses 10 Agustus 2020.
[24] Signal Conditioner, https://www.hbm.com/en/7339/what-is-a-signal-conditioner/, diakses 13 Agustus 2020.
[25] Yuliansyah, H., “Uji Kinerja Pengiriman Data Secara Wireless Menggunakan Modul ESP8266 Berbasis Rest Architecture”, 10, 10, 2016.
[26] Cara Menggunakan Modul Wifi ESP8266, https://www.cronyos.com/cara- menggunakan-modul-wifi-esp8266-via-at-command-arduino/ , diakses 8 Agustus 2020.
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[28] Payara, GR, Tanone, R., “Penerapan Firebase Realtime Database Pada Prototype Aplikasi Pemesanan Makanan Berbasis Android”, 4, 10, 2018.
[29] Anjarkusuma, D & Soepono, B., “Penggunaan Aplikasi CMS Wordpress untuk Merancang Website sebagai Media Promosi pada Maroon Wedding Malang”, BABII Tinjauan Pustaka, 2014.
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[31] Aminah, S, Maulana, G & Wibisono, DA., “Perancangan Sistem Monitoring Kualitas Air Pada Tambak Udang Berbasis Internet of Things”, 5, 2019.
Tripathy, S, & Singh, SG 2020, Label Free Electrochemical Detection of DNA
Hybridization: A Method for COVID 19 Diagnosis, 3-5.
[32] Tripathy, S, & Singh, SG., “Label Free Electrochemical Detection of DNAHybridization: A Method for COVID 19 Diagnosis”, 3-5, 2020.
[33] Tan, & Pang-Ning, & Steinbach, Michael & Adeyeye Oshin, Michael & Kumar, Vipin & Vipin,. “Introduction to Data Mining”, 2005.
Published
2021-12-31
How to Cite
Utami, C., Maudini, N., & Aprilia, R.
(2021).
Sistem Monitoring Keberadaan Covid-19 pada Air Menggunakan Biosensor dan Kecerdasan Buatan Berbasis Internet of Things.
Jurnal Rekayasa Sistem & Industri (JRSI), 8(02), 63-70.
doi:10.25124/jrsi.v8i02.457
Section
Articles
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
