Department of Informatics, Universitas YARSI, Indonesia
BibTex Citation Data :
@article{JTSISKOM12908, author = {Ahmad Sabiq and Prabowo Nugroho Budisejati}, title = {Sistem Pemantauan Kadar pH, Suhu dan Warna pada Air Sungai Melalui Web Berbasis Wireless Sensor Network}, journal = {Jurnal Teknologi dan Sistem Komputer}, volume = {5}, number = {3}, year = {2017}, keywords = {wireless sensor network; water pollution monitoring; web monitoring system}, abstract = { Water is a very important natural resource for human life and other living things. Water pollution, especially in river water, should be controlled because of the rapid development. One technology to monitor multiple physical quantities scattered in a region is the Wireless Sensor Network (WSN). WSN technology has the ability to transmit data from sensor readings and forward data received from other nodes. In this study, a prototype was developed to monitor pH level, temperature, and color of river water based on WSN that can be monitored through the web. The sensors at each node are connected to Arduino Uno as a processing unit. Data read from the sensor is sent to the sync node via XBee wireless device. In the sink, the PC also serves as a database server and a web server is used. Test results with two different dispersion indicate that sensor readings can be read by all nodes and received by the sync node and can be displayed on web pages that have been built. }, issn = {2338-0403}, pages = {94--100} doi = {10.14710/jtsiskom.5.3.2017.94-100}, url = {https://jtsiskom.undip.ac.id/article/view/12908} }
Refworks Citation Data :
Water is a very important natural resource for human life and other living things. Water pollution, especially in river water, should be controlled because of the rapid development. One technology to monitor multiple physical quantities scattered in a region is the Wireless Sensor Network (WSN). WSN technology has the ability to transmit data from sensor readings and forward data received from other nodes. In this study, a prototype was developed to monitor pH level, temperature, and color of river water based on WSN that can be monitored through the web. The sensors at each node are connected to Arduino Uno as a processing unit. Data read from the sensor is sent to the sync node via XBee wireless device. In the sink, the PC also serves as a database server and a web server is used. Test results with two different dispersion indicate that sensor readings can be read by all nodes and received by the sync node and can be displayed on web pages that have been built.
Article Metrics:
Last update:
Water Environment Temperature and Acidity (pH) Monitoring System Based on Arduino UNO
Analysis on Batik Water Waste Monitoring System based on LoRa Communication
Monitoring water quality using star topology wireless sensor networks
Last update: 2024-12-20 17:49:02
Starting from 2021, the author(s) whose article is published in the JTSiskom journal attain the copyright for their article and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution-ShareAlike 4.0 International License. By submitting the manuscript to JTSiskom, the author(s) agree with this policy. No special document approval is required.
The author(s) guarantee that:
The author(s) retain all rights to the published work, such as (but not limited to) the following rights:
Suppose the article was prepared jointly by more than one author. Each author submitting the manuscript warrants that all co-authors have given their permission to agree to copyright and license notices (agreements) on their behalf and notify co-authors of the terms of this policy. JTSiskom will not be held responsible for anything arising because of the writer's internal dispute. JTSiskom will only communicate with correspondence authors.
Authors should also understand that their articles (and any additional files, including data sets and analysis/computation data) will become publicly available once published. The license of published articles (and additional data) will be governed by a Creative Commons Attribution-ShareAlike 4.0 International License. JTSiskom allows users to copy, distribute, display and perform work under license. Users need to attribute the author(s) and JTSiskom to distribute works in journals and other publication media. Unless otherwise stated, the author(s) is a public entity as soon as the article is published.