Please use this identifier to cite or link to this item:
https://repository.uksw.edu//handle/123456789/27129
Title: | Rancang Bangun Sistem Pemantau Kualitas Air Berbasis IoT |
Authors: | Ramadhan, Muhammad Hisyamudin |
Keywords: | kualitas air;Fuzzy Logic Controller;Arduino;pH;TDS;turbidity |
Issue Date: | 2020 |
Abstract: | Air merupakan sumber daya alam yang memiliki fungsi sangat penting bagi kehidupan mahluk hidup khususnya dalam memenuhi kebutuhan hidup manusia. Air bersih yang layak dikonsumsi adalah air yang memenuhi persyaratan yang diatur pada Peraturan Menteri Kesehatan Republik Indonesia Nomor 32 tahun 2017 tentang Standar Baku Mutu Kesehatan Lingkungan dan Persyaratan Kesehatan Air untuk keperluan Higiene Sanitasi. Penentuan kualitas air dengan menggunakan metode konvensional masih dilakukan secara manual dengan cara mengambil sampel lalu mengklasifikasikan sampel dan menganalisa satu persatu data sampel pengujian sehingga membutuhkan waktu yang lama dan tidak efektif. Perkembangan teknologi mikrokontroler dan teknologi informasi seperti sistem pendukung keputusan, dapat memberikan solusi bagi pengguna dalam membantu proses pengambilan keputusan yang terkait dengan penentuan kualitas air. Oleh karena itu dalam tugas akhir ini,diberikan solusi dengan merancang sistem ‘smart’ monitoring kualitas air yang bekerja secara realtime agar bisa diakses kapanpun dan dimanapun. Proses analisa kualitas air dilakukan dengan Fuzzy Logic Controller. Parameter input yang dibutuhkan adalah nilai pH, Turbidity atau kekeruhan, dan TDS (Total dissolved solids) atau zat padat terlarut. Metode Fuzzy Logic Controller digunakan untuk menetukan kualitas air kedalam tiga kelas yaitu memenuhi baku mutu (kondisi baik), biasa, dan buruk (tercemar). Perancangan sistem ini menggunakan Arduino Mega 2560 yang digunakan sebagai mikrokontroler serta sensor analog DFRobot pH meter, sensor analog DFRobot TDS, dan sensor Turbidity DFRobot. Water is a natural resource that has a very important function for the life of living things, especially in meeting the needs of human life. Clean water that is fit for consumption is water that meets the requirements stipulated in the Regulation of the Minister of Health of the Republic of Indonesia number 32 of 2017 concerning Environmental Health Standard Quality Standards and Water Health Requirements for the needs of Sanitary Hygiene. Determination of water quality using conventional methods is still done manually by taking samples then classifying samples and analyzing one by one the test sample data so it requires a long time and is not effective. The development of microcontroller technology and information technology such as decision making support systems, can be provide solutions for users in helping the decision making process related to determining water quality. Therefore, in this thesis, a solution is provided by designing a 'smart' water quality monitoring system that works in real time that can be accessed anytime, anywhere. The water quality analysis process is carried out with a Fuzzy Logic Controller. Parameters input needed are pH,Turbidity or TDS (Total Dissolved Solids). Fuzzy Logic Controller method used to determine the quality of water into three classes, which meet the quality standards (good condition), ordinary, and bad (polluted). The design of this system uses Arduino Mega 2560 which is used as a microcontroller and DFRobot pH meter analog sensor, DFRobot TDS analog sensor, and Turbidity DFRobot sensor. |
URI: | https://repository.uksw.edu//handle/123456789/27129 |
Appears in Collections: | T1 - Electrical Engineering |
Files in This Item:
File | Description | Size | Format | |
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T1_612016027_Judul.pdf | Judul | 1.22 MB | Adobe PDF | View/Open |
T1_612016027_BAB I.pdf Until 2999-01-01 | BAB I | 656.92 kB | Adobe PDF | View/Open |
T1_612016027_BAB II.pdf Until 2999-01-01 | BAB II | 1.11 MB | Adobe PDF | View/Open |
T1_612016027_BAB III.pdf Until 2999-01-01 | BAB III | 1.51 MB | Adobe PDF | View/Open |
T1_612016027_BAB IV.pdf Until 2999-01-01 | BAB IV | 1.6 MB | Adobe PDF | View/Open |
T1_612016027_BAB V.pdf Until 2999-01-01 | BAB V | 715.83 kB | Adobe PDF | View/Open |
T1_612016027_Daftar Pustaka.pdf | Daftar Pustaka | 809.9 kB | Adobe PDF | View/Open |
T1_612016027_Lampiran.pdf Until 2999-01-01 | Lampiran | 791.86 kB | Adobe PDF | View/Open |
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