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Hanifudin Tahier, Ahmad Ridlo
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Agriculture, Biological Sciences & Forestry Chemistry Education Physics Other

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SISTEM KENDALI PENYIRAM BIBIT CABAI OTOMATIS BERBASIS IOT DENGAN KONTROL APLIKASI BLYNK Hanifudin Tahier, Ahmad Ridlo; Ahmad Fa’iq Sholahuddin; Ihsanudin Abdullah Aziz
JEAS (Journal of Educational and Applied Science) Vol. 2 No. 1 (2024): September 2024
Publisher : Tadris IPA Universitas KH. Mukhtar Syafaat Blokagung Banyuwangi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30739/jeas.v2i1.3196

Abstract

Soil moisture is the main aspect that needs to be considered so that plants are maintained and grow well. The Internet of Things (IoT) is a network of physical devices connected to the internet, enabling them to collect and share data. This research produces a system that will maintain soil moisture for chili plant seeds at the ideal range and can be controlled remotely via a device connected to the Internet (IoT), using a soil moisture sensor to detect the level of soil dryness. If the soil is detected as dry, the pump will activate and spray until the humidity in the soil increases. Once the humidity in the soil increases to the upper limit, the pump will automatically stop. However, on the other hand, if the soil is initially detected as wet, the pump will remain inactive and the pump will be active when the moisture in the soil is dry. The chili plant watering monitoring system can be carried out at close range using an LCD and remotely using the Internet of Things via the Blynk application. This system can maintain the soil moisture percentage value at 65% with the time needed to increase soil moisture from dry conditions is 2 minutes 11 seconds
RANCANG BANGUN ALAT MONITORING SUHU DAN POLUSI KARBON MONOKSIDA (CO) DI WILAYAH TEMBALANG BERBASIS INTERNET OF THINGS (IOT) Hanifudin Tahier, Ahmad Ridlo; Rifqi Khairullah Muhamad; Daffa Maulana Fariza; Raihan Ramadhan; Yoga Reksandiko Rasyidin; Aprillia Ainun Rahmi
JEAS (Journal of Educational and Applied Science) Vol. 2 No. 1 (2024): September 2024
Publisher : Tadris IPA Universitas KH. Mukhtar Syafaat Blokagung Banyuwangi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30739/jeas.v2i1.3350

Abstract

Increased urban mobility and activity can generate increased gaseous and particulate emissions, which can have an impact on air quality and public health. Therefore, it is important to understand environmental conditions in depth and develop innovative solutions to monitor and address environmental affects in Semarang City. The design of a monitoring tool for temperature and carbon monoxide (CO) pollution in the Tembalang area based on the Internet of Things (IoT) is the focus of the research which includes the application of NodeMCU ESP8266 technology, MQ-7 gas sensor, and DHT11 temperature sensor. This research focuses on learning basic concepts in developing IoT applications for environmental monitoring, with the main purpose of monitoring temperature and carbon monoxide pollution levels in the Tembalang area. During the research, the researchers observed the vehicle traffic being both busy and quiet. From the research data, the average value of temperature, humidity and CO gas levels at peak times were 31.4, 83.14% and 9.7 ppm, respectively. While in quiet traffic condition, the average values of temperature, humidity and CO gas levels are 29.8, 84.07% and 1.67 ppm, respectively. In addition, this research also successfully displays data online through the Thingspeak online platform which can be accessible to the public from anywhere through the website.
Co-Authors Ahmad Fa’iq Sholahuddin Aprillia Ainun Rahmi Daffa Maulana Fariza Ihsanudin Abdullah Aziz Raihan Ramadhan Rifqi Khairullah Muhamad Yoga Reksandiko Rasyidin