Claim Missing Document
Check
Articles

Found 3 Documents
Search

Rancang Bangun Sistem Pendeteksi Monitoring Kesehatan Pendaki Gunung Dengan Notifikasi Telegram Berbasis Arduino Mega 2560 Jerry Hutari Putra; Okta Andrica P; Yogi Wiyandra
Journal of Computer Scine and Information Technology Volume 9 Issue 1 (2023): JCSITech
Publisher : Universitas Putra Indonesia YPTK Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35134/jcsitech.v9i1.136

Abstract

Abstrak Proyek akhir ini bertujuan untuk membangun sebuah rancangan sebagai pendeteksian ketinggian tanah, tekanan udara  suhu lingkungan serta monitoring kesehatan pendaki dengan parameter suhu tubuh yang terkoneksi dengan Telegram berbasis mikrokontroller Arduino Mega 2560 sebagai pengontrol utamanya. Sensor BME280 berfungsi sebagai pendeteksi ketinggian tanah , tekanan udara dan suhu lingkungan pada  pendakian untuk dijadikan input oleh sistem. Sedangkan MLX90614 digunakan sebagai pendeteksi suhu tubuh dari pendaki. Setelah semua nilai input telah terbaca oleh sistem maka LCD akan menampilkan hasil dari pembacaan berupa text. Button berfungsi sebagai pemberi perintah untuk memulai pembacaan suhu tubuh dan mengirim notifikasi pembacaan sensor ke aplikasi Telegram. Ketika suhu pendaki terdeteksi lebih dari atau sama dengan 36 derajat celsius maka pendaki berada di range suhu tubuh aman ditandai dengan indikator LED Hijau hidup, sedangkan ketika suhu pendaki kurang dari 36 derajat celsius  maka LED Merah aktif dan Buzzer bebunyi menandakan pendaki terkena hipotermia. Dari hasil penelitian yang dilakukan, didapat bahwa sistem ini dapat bekerja dengan nilai sensor yang akan ditampilkan pada LCD dan untuk monitoring kesehatan pendaki harus terjangkau dengan koneksi internet yang memadai untuk terkirim ke notifikasi Telegram. Kata kunci : Arduino Mega 2560, NodeMCU 8266, BME280 , MLX90614, LCD, LED, Buzzer.
Perkembangan Smart Distribution Seosoning System Menggunakan Delphi 7 Berbasis Orange Pi Ratna Gusrianti; Retno Devita; Yogi Wiyandra
Journal of Computer Scine and Information Technology Volume 9 Issue 1 (2023): JCSITech
Publisher : Universitas Putra Indonesia YPTK Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35134/jcsitech.v9i1.138

Abstract

Kitchen seasonings are substances that generally come from aromatic plants which are added to dishes with the aim of flavoring food. Seasoning serves to make food taste better. Delicious or not a food depends on the spices added. Seasoning is made from a mixture of spices through various processing processes. Generally, cooking spices are classified into three groups, namely red, white and yellow main spices. Many types of spices can be made into seasonings, for example coriander, pepper, black pepper. There are various types of spices, so storage in the warehouse requires a place that is suitable for the types of spices. So that suppliers are not confused about storing kitchen spices and if needed they are not confused anymore. The supplier will send the spices according to consumer demand, samples in kilo sizes according to the space provided and there will be no more mistakes. This research was carried out by designing, manufacturing and implementing the process, LCD as an information display, Load Cell as a detector for spices, and speakers providing information in the form of sound covering the microcontroller controlling the process, namely the Orange Pi.
Smart Aquarium System Dilengkapi Rekomendasi Perawatan Spesifik Berdasarkan Jenis Ikan Hias Masril, Mardhiah; Ikhwan Nursyam; Yogi Wiyandra
JURNAL QUANCOM: QUANTUM COMPUTER JURNAL Vol. 4 No. 1 (2026): Juni 2026
Publisher : LPPM-ITEBA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62375/thcjcs42

Abstract

Keeping ornamental fish in an Aquarium requires intensive care, particularly in maintaining a consistent feeding schedule and water quality. Negligence in maintenance can adversely affect the Aquarium ecosystem and fish health. Beyond cleanliness, the utilization of technology to create a more natural environment for the fish and a relaxing effect for the owners is still rarely developed. This research aims to design and build a microcontroller-based Smart Aquarium System as an efficient and interactive solution for automated fish care. This automation and educational medium is expected to assist user in managing Aquariums without the need for continuous manual intervention. The System is designed to perform automatic feeding schedules, water purification through a filtration System, and is equipped with a relaxation music player feature to create a more conducive atmosphere. This study employs the Research and Development (R&D) method, which includes the stages of problem identification, data collection, System design, implementation, testing, and evaluation. The System is built using an Arduino microcontroller as the central controller, integrating components such as temperature/water quality sensors, a servo motor for the automatic feeder, a water pump for filtration, and an audio module for the music feature. The test results show that the device functions as designed, where the System is capable of delivering feed precisely according to the determined schedule and maintaining optimal water circulation. The implementation of this Smart Aquarium has proven effective in increasing the efficiency of ornamental fish maintenance and providing added value in the form of convenience through integrated automation features