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All Journal Jurnal TAM (Technology Acceptance Model) Jurnal Teknologi Komputer dan Sistem Informasi
Rulin Swastika
Program Studi Teknik Informatika, Universitas Al-Khairiyah, Cilegon, Banten
Computer Science & IT

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THE PROTOTYPE AND DESIGN OF EARLY DETECTION OF GAS LEAKAGE BASED ON MICROCONTROLLER USING PERSONAL EXTREME PROGRAMMING METHOD Rulin Swastika; Penny Hendriyati; Dwi Agung Cahyadi
Jurnal TAM (Technology Acceptance Model) Vol 12, No 2 (2021): Jurnal TAM (Technology Acceptance Model)
Publisher : LPPM STMIK Pringsewu

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56327/jurnaltam.v12i2.1097

Abstract

At the beginning of the launch of LPG as an alternative fuel to replace kerosene, many cases of LPGexplosions were caused by gas leaks which were not detected early on. This had created 'anxiety' in the community so that people were reluctant to use LPG due to lack of socialization, lack of public knowledge about dealing with gas leaks and no tools for early detection of gas leaks. Currently, LPG (Liquid Petroleun Gas) in the form of methane gas is widely used by the community after the government launched an energy conversion campaign. Practically today, kerosene has been abandoned by many people and replaced by LPG. The method used in this study uses the PXP (Personal Extreme Programming) method with single programming. Complete collection of information data allows developers to find views to create a software so that it can be right on target. This stage requires several steps, planning, design, coding, system testing. The goal is to produce a useful tool which can be used by the wider community. This tool can detect gas leaks precisely if the sensor is heated and the gas source is not mixed with free air. This tool can send a signal in the form of an SMS warning automatically and can sound an alarm so that people around who hear the alarm can know.
PROTOTYPE DESIGN OF HONEY EXTRACTOR MACHINE USING ARDUINO MICROCONTROLLER WITH INTERNET OF THINGS (IOT) MODEL Rulin Swastika; Efi Rohman; M. Agus Badruzaman Al Khoir
Jurnal TAM (Technology Acceptance Model) Vol 13, No 1 (2022): Jurnal TAM (Technology Acceptance Model)
Publisher : LPPM STMIK Pringsewu

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56327/jurnaltam.v13i1.1196

Abstract

The application of appropriate technology based on the Adruino Uno R3 Microcontroller using the Android Operating System has been tested in this research. Sensor technology coupled with Arduino is applied to control the electric motor mounted on the honey bee extractor. It is proven that this can increase harvest efficiency because honey bees can produce directly without building a honeybee nest, which takes 14 days. In addition to time efficiency, the extractor processing process is also more efficient and optimal because all the honey in the hive is removed maximally without damaging the honeybee nest structure. A honey extractor is a tool used to squeeze honeycomb which has been produced by bees and has a high economic value
The Prototype Design of Duck Egg Incubator Machine Using Arduino Uno R3 Microcontroller Rulin Swastika; Efi Rohman; Bambang Aribowo
JTKSI (Jurnal Teknologi Komputer dan Sistem Informasi) Vol 6, No 1 (2023): JTKSI (Jurnal Teknologi Komputer dan Sistem Informasi)
Publisher : STMIK Pringsewu

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56327/jtksi.v6i1.1387

Abstract

In incubating duck eggs, traditionally it can be done using other poultry parents that are incubating the eggs. This method can be done by placing another egg together with the egg which is being incubated by the mother. In an effort to increase the productivity of the resulting ducklings, this research focuses on the development of a duck egg incubator prototype using Arduino Uno R3 microcontroller. The first step in temperature control is to determine the temperature set point (desired temperature value). The output in the form of heat is read by NTC 10K temperature sensor which then becomes an input. If the temperature input which is read is less or more than the specified temperature, the module relay works to turn on or turn off the incandescent lamp. The main source of heat generation in the incubator room is an incandescent lamp, so a relay module is used to control the on/off of the light. This is so that the temperature produced from the incandescent lamp is stable according to what is needed during the hatching process. To read the temperature, an NTC 10K sensor is used in order to provide temperature measurement information which can be processed by the microcontroller on Arduino. After testing the prototype, an incubator is produced which can work according to the working principle of an automatic egg incubator and can reach the target according to the expected goals. Automatic egg incubators can be used by duck poultry farmers to help incubate eggs.
Co-Authors Bambang Aribowo Dwi Agung Cahyadi Efi Rohman Efi Rohman M Agus Badruzaman Al Khoir Penny Hendriyati