<p class="AbstractEnglish"><strong>Abstract:</strong> Maintaining health is very important for life especially in the current Covid-19 pandemic. One of the protocols imposed by the government for people who do in public spaces or open facilities is to check body temperature. In this study, arduino-based body temperature gauges were designed to have reminder alarms if the body temperature was above 37.30 and connected to a computer device via bluetooth. This body temperature gauge utilizes the DS18B20 sensor to measure temperature in celsius (0C). Body temperature data is also displayed on the 16x2 (cm) LCD found on the appliance. The test results of body temperature measuring instruments compared to thermo guns and have a deviation range of 1.16% - 2.02%. This body temperature gauge is expected to be installed in public places that need to conduct checks on the people who will be active in the room, the operator can stand at the control table so that it does not come into direct contact with the community.</p><p class="AbstrakIndonesia"><strong>Abstrak:</strong> Menjaga kesehatan merupakan hal yang sangat penting bagi kehidupan terutama di masa pandemi Covid- 19 sekarang. Salah satu protokol yang diberlakukan oleh pemerintah bagi masyarakat yang berkegiatan di ruang umum atau fasilitas terbuka adalah memeriksa suhu tubuh. Dalam penelitian ini dibuat rancang bangun alat pengukur suhu tubuh berbasis arduino yang memiliki alarm pengingat jika suhu tubuh berada diatas angka 37.30 dan terhubung ke perangkat komputer melalui bluetooth. Alat pengukur suhu tubuh ini memanfaatkan sensor DS18B20 untuk mengukur suhu dalam satuan celcius (0C). Data suhu tubuh juga ditampilkan pada LCD 16x2 (cm) yang terdapat pada alat. Hasil pengujian alat ukur suhu tubuh dibandingkan dengan thermo gun dan memiliki rentang penyimpangan 1.16% - 2.02%. Alat pengukur suhu tubuh ini diharapkan dapat dipasang di tempat-tempat umum yang membutuhkan untuk melakukan pemeriksaan terhadap masyarakat yanga akan beraktifitas diruangan tersebut, operator dapat berdiri di meja kendali sehingga tidak kontak langsung dengan masyarakat.</p>
In this pandemic era, doors in public places are one of the objects that can be an intermediary for the transmissionof the Covid-19 virus. That's why various kinds of developments in the field of technology are designed to provide an alternative in avoiding the transmission of the Covid-19 virus through doors in public places.The purpose of this study is to design an Arduino Uno-based automatic door simulator using Proteus software. The sensor used in this system is a PIR (Passive Infra Red) sensor. The way the system works is that when the PIR sensor detects someone's movement, the Data OUT Pin will be HIGH. Because this pin is connected to the Arduino, it will detect this HIGH Signal and detect that someone is approaching the door and will provide input to the DC motor, then the DC motor will move to the right or left to pull the door. From the simulation results, the delay between sensor readings and the movement of the DC motor is about 3 to 5 seconds.
WHO (The World Health Organization) has declared Covid-19 a pandemic that has posed a contemporary threat to humans. This pandemic has succeeded in making mass decommissioning of activities, including activities in the field of education, this has led to a massive transition in the world of higher education to promote online education. Module is one of the teaching materials that can be used in learning and can support the effectiveness of the learning process. The purpose of this research is to create basic physics e-modules in order to access learning materials easily, efficiently, and fun based on android. This stage of research is preliminary study, desaign development, and testing. The results of this study in the form of e-modules and feasibility test surveys on a limited scale, e-modules that have been made show a fairly good feasibility results.
The HPGe detector is a device that should be cooled when used and can be operated at room temperature. For this reason, it is necessary to monitor the temperature and humidity in the HPGe detector storage area to produce optimal performance. This research was focused on designing a Smart Detector Environment System as a means of monitoring and automatic control of temperature and humidity in the HPGe detector storage. Temperature and humidity detection in the system was carried out by the DHT22 sensor connected to Arduino Uno and the motor driver module. Arduino uno gave the command "00000011" to detect the temperature in the chamber, and "00000101" to start the detection of humidity in the chamber, then the data generated by the DHT22 sensor would be displayed and processed by LabVIEW, which was used to move the fan to regulate the temperature and humidity in the system with the condition that the lamp on the chamber was left on (manual). The results obtained were in the form of a design and automatic control of temperature and humidity monitoring and control in the HPGe detector storage whose temperature could be adjusted automatically according to the needs of the HPGe detector.
BUMDes Rancang Jaya has several activities such as a cafe business unit, village water management business unit, agricultural product management business unit, handicraft and industrial business unit. On agricultural land, there are several obstacles, one of which is the lack of resources to manage agricultural land. Automating plantation irrigation activities can change the paradigm from a manual and static system to a more dynamic system that leads to increased water use efficiency and leads to higher production yields. Application of solar panel-based PETIS Technology applications to increase the efficiency and effectiveness of farmers in managing their crops. Especially in surface water utilization systems as irrigation water and in the consistency of giving water to plants because PETIS Technology uses the RTC system, which is automatic watering based on the desired time based on solar panels. The method used is advocacy. Starting with conducting surveys and observations to analyze partner problems, assembling and testing tools, installing tools, and providing community assistance. Solar panel-based PETIS technology can be utilized for an automatic watering system on agricultural land in Sinarancang Village, which has a high level of efficiency because the electricity comes from solar panels that are free of charge.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.