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All Journal Jurnal Teknoif Teknik Informatika Institut Teknologi Padang Ammatoa : Journal of Informatics, Computer
Adi Candra
Institut Teknologi dan Bisnis Bina Adinata
Automotive Engineering Computer Science & IT Control & Systems Engineering Engineering Industrial & Manufacturing Engineering

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A RICE OF INTENSIFICATION SYSTEM BASED ON MICROCONTROLLER-BASED RICE OF INTENSIFICATION: SISTEM KONTROL PENGAIRAN SAWAH MENGGUNAKAN METODE SISTEM RICE OF INTENSIFICATION BERBASIS MIKROKONTROLLER Adi Candra; Farida Farida; Husni Sulaiman
Jurnal Teknoif Teknik Informatika Institut Teknologi Padang Vol 10 No 2 (2022): TEKNOIF OKTOBER 2022
Publisher : ITP Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21063/jtif.2022.V10.2.62-68

Abstract

Agricultural irrigation is an effort made by farmers to maintain the consistency of water availability on agricultural land. However, the use of water, especially in the dry season, cannot be properly regulated so that the use of water for irrigating rice fields is not in accordance with the needs. Water regulation is made with the aim of being able to meet water needs evenly on each land, information from several Mattirobulu farmer groups in Dampang Village, Gantarang District, Bulukumba Regency, information is obtained that, until now the distribution of irrigation water through irrigation gates is done manually, so that the distribution of water in paddy fields didn’t go as expected due to the presence of several farmer groups and the presence of several irresponsible people or persons committing fraud in the distribution of water. So that problems arise such as the loss of mutual trust between farmers, to the occurrence of disputes between farmers. The purpose of this research is to design a prototype of a rice field irrigation control system using a microcontroller-based Rice of Intensification system. The results of this study are the use of a greedy algorithm to determine the lowest point that can function properly to determine the closest point in the water level detection system. Utilization of the water level sensor to detect the height of the water level in the fields can detect well with a low level of 1 cm, a medium level of 5 cm and a high level of 10 cm.
PROTOTYPE ALAT PENYORTIR BIBIT IKAN LELE BERBASIS ARDUINO UNO Ahmad Zari Ulhisaf; Nurwahid Syam; Adi Candra
Journal System Information And Computer Vol 1 No 2 (2023): Oktober, 2023
Publisher : Institut Teknologi dan Bisnis Bina Adinata

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63989/ammatoa.v1i2.12

Abstract

Abstract – This study aims to: (1) design a tool capable of sorting catfish seeds. (2) find out the results of testing the aruino uno catfish seed sorting tool. This study used a prototype research method (prototyping). The stages of making a tool using a prototype are gathering needs, fast design process, building prototypes, evaluating and repairing. This study used data collection techniques, namely observation, interviews, literature study, questionnaires, documentation. The results showed that: (1) the prototype of the catfish seed sorting tool used the LDR sensor, KY-008 sensor and Arduino Uno, namely making a design then assembling tools, doing programming, then testing, then validating or repairing the tool, then testing the tool After that, use the tool. (2) The implementation of the use of the catfish seed sorter uses an LDR sensor, KY-008 sensor, Arduino uno and LCD, to be able to detect and process data and display fish values ​​or work properly.
Sistem Informasi Donor Darah Berbasis Android Pada Unit Transfusi Darah (UTD) Palang Merah Indonesia (PMI) Kabupaten Bulukumba Nurul Latifah; Adi Candra; Juniarti Iryani
Journal System Information And Computer Vol 2 No 2 (2024): Oktober
Publisher : Institut Teknologi dan Bisnis Bina Adinata

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63989/ammatoa.v2i2.133

Abstract

This study aims to (1) build an android-based blood donor information system for the PMI Blood Transfusion Unit (UTD) in Bulukumba Regency (2) find out how to display a map of the location and route from the user's position to the destination of the blood donor activity. The method used is the waterfall method, called Waterfall because the stages that are passed must wait for the completion of the previous stage and run sequentially. This development model is linear from the initial stage of system development, namely the planning stage, to the final stage of system development, namely the maintenance stage. The results of this study are: (1) With the Sidonor application, the PMI Blood Transfusion Unit in Bulukumba Regency can disseminate blood stock information, schedules and blood donor locations, besides that in this application, there is a question and answer form that can make it easier for users to communicate with the admin. In designing this blood donor information system using UML (Unifield Modeling language) as the system design and made using the Java programming language and Firebase as the database and testing this system using blackbox testing and the results of this test have run as expected (2) By clicking on the bottom location on the location & schedule menu, the system will direct the user to the location of the blood donor activity with the help of Google Maps, this can make it easier for the user to find the location of the blood donor activity.
Co-Authors Ahmad Zari Ulhisaf Farida Farida Husni Sulaiman Juniarti Iryani Nurul Latifah Nurwahid Syam