TEKNOLOGI INTERNET OF THINGS DALAM PROSES MONITORING SUHU DAN KELEMBABAN DI GUDANG PENYIMPANAN BAHAN KULIT

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Abstract

 

The company's business competition is getting tougher in today's digital era. So that a company is required to adapt to technological advances. The Internet of Things has begun to be implemented to realize industry 4.0. One of the foundations of industrial revolution 4.0 is IoT. So that IoT can be used in the process of monitoring temperature and humidity in leather storage warehouses so that skin quality can be maintained. High and low humidity greatly affects the quality of the skin. IoT devices that are continuously connected to the internet network can provide convenience for remote monitoring. In addition, it can help warehouse supervisors to work efficiently and effectively and decide an action based on historical data obtained from monitoring results. An IoT-based temperature and humidity monitoring system connected to MQTT (Message Queuing Telemetry Transport) can send data or messages in real-time so that if there is an increase in temperature and humidity beyond a predetermined threshold, supervisors can immediately take action.

 

 

References

[1] McKinsey. The internet of things: mapping the value beyond the hype. [Internet]. McKinsey Global Institute; 2015. 127 hlm. Tersedia pada: https://www.mckinsey.com/~/media/McKinsey/Industries/Technology%20Media%20and%20Telecommunications/High%20Tech/Our%20Insights/The%20Internet%20of%20Things%20The%20value%20of%20digitizing%20the%20physical%20world/Unlocking_the_potential_of_the_Internet_of_Things_Executive_summary.pdf
[2] Waher P. Mastering Internet of Things: Design and create your own IoT applications using Raspberry Pi 3. Packt Publishing; 2018.
[3] Pryanka A, Zuraya N. Potensi Pasar Internet of Things di Indonesia Capai Rp 444 T [Internet]. 2018 [dikutip 15 Maret 2022]. Tersedia pada: https://www.republika.co.id/berita/ekonomi/fintech/18/11/14/pi6068383-potensi-pasar-internet-of-things-di-indonesia-capai-rp-444-t
[4] Wilianto, Kurniawan A. SEJARAH, CARA KERJA DAN MANFAAT INTERNET OF THINGS. JURNAL MATRIX. 8:36.
[5] Triatmojo S. Pengaruh kelembaban rendah, sedang, dan tinggi terhadap komposisi kimia dan sifat-sifat fisik kulit perkamen sapi yang disimpan pada suhu kamar. Yogyakarta: Laporan Penelitian Fakultas Peternakan Universitas Gajah Mada; 1984.
[6] Djojowidagdo S. SIFAT - SIFAT KULIT PERKAMEN KERBAU SELAMA PENYIMPANAN 12 MINGGU DALAM KELEMBABAN DAN SUHU BERBEDA. Buletin Peternakan. 17.
[7] Nur Insan Fathulrohman Y, Saepuloh A. ALAT MONITORING SUHU DAN KELEMBABAN MENGGUNAKAN ARDUINO UNO. [dikutip 18 April 2022]; Tersedia pada: http://jurnal.stmik-dci.ac.id/index.php/jumika/
[8] Wijanarko D, Hasanah S. MONITORING SUHU DAN KELEMBABAN MENGGUNAKAN SMS GATEWAY PADA PROSES FERMENTASI TEMPE SECARA OTOMATIS BERBASIS MIKROKONTROLER. Jurnal Informatika Polinema.
[9] Zulkarnain Hasibuan A, Setiani Asih M, Faisal I. SISTEM MONITORING SUHU UDARA DAN KELEMBABAN UDARA DI RUANGAN MENGGUNAKAN SMARTPHONE. Jurnal Ilmu Komputer dan Sistem Komputer Terapan (JIKSTRA). April 2020;01.
[10] Brickenstein Hofschen M. MQTT & MQTT 5 Essentials. The ultimate Kickstart for MQTT Beginners. Vol. 1. Germany: HiveMQ; 2019.
Published
2022-12-10