SISTEM PENENTUAN GUDANG BERAS BERBASIS IOT MENGGUNAKAN METODE SAW PADA PLATFORM THINGSBOARD

Authors

  • Timbo Faritcan Parlaungan S. STMIK Subang
  • Agus Sudrajat STMIK Subang
https://doi.org/10.47561/a.v13i2.186
This Abstract has been read 374 times

Abstract

Determination of Rice Warehouse Storage System, Kasomalamg is a system that can assist officers in maintaining Rice Storage. There are several factors that can affect the quality of rice security, namely, temperature, humidity, and dust. Which can affect the quality of rice becomes moldy and fast ticking.The purpose of this study is to determine the durability of rice storage with the quality of temperature, humidity, and cleanliness of the room with different values. Data calculated using the Microcontroller with DHT11 Sensor to read temperature parameters and humidity parameters as well as dust sensors that can read the thickness of the dust based on the Internet of Things. Then the data is processed using the ranking method with Simple Addictive Weight (SAW) to determine the storage of rice with the highest calculation results as the best rice storage.

Keywords: Internet of Things (IoT), Warehouse, Simple Additive Weighting (SAW)

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References

Abilovani, d. (2018). Implementasi Protokol MQTT Untuk Sistem Monitoring Perangkat IoT. Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol. 2, No. 12.

Aghenta, d. (2019). Design and implementasi of a low-cost, open-source IoT-based SCADA system using ESP32 with OLED, ThingsBoard adn MQTT protocol.

Yusuf, & dkk. (2017). Analisis pergudangan di bagian gudang barang jadu (finish goods) pt Nipress TBK Cileungsi Bogor. Jurnal Manajemen Industri dan Logistik

Ardiansyah, & dkk. (2018). Sistem Monitoring Debu dan Karbon Monoksida Pada Lingkungan Kerja Boiler di PT. Karunia Alam Segar. Jurnal IKRA-ITH Teknologi Vol 2 No 3.

wikipedia. (2020, Juni 01). Retrieved from https://id.wikipedia.org/wiki/Debu

System Espressif. (2018). This document provides the specifications of ESP32 family of chips

A. Junaidi, “Internet Of Things, Sejarah, Teknologi Dan Penerapannya : Review,” Jurnal Ilmiah Teknologi Informasi Terapan Volume I, No 3, 62-66, 2015.

Irwansyah, “Penggunaan Metode Weighting Product (WP) Pada Sistem Pendukung Keputusan Dalam Penentuan Barang Konveksi,” Just TI Volume 7 No 2, 889-896, 2015.

S. Lestari, “Penerapan Metode Weighted Product Model Untuk Seleksi Calon Karyawan,” Jurnal Sistem Informasi (JSI), VOL. 5, NO. 1, 540-545, 2013.

Basri, “Metode Weightd Product (WP) Dalam Sistempendukung Keputusan Penerimaan Beasiswa Prestasi,” Jurnal Insypro (Information System and Processing), vol. 2, no. 1, 2017.

A. Ahmadi, and D. T. Wiyanti, Implementasi Weighted Product (WP) dalam Penentuan Penerima Bantuan Langsung Masyarakat PNPM Mandiri Perdesaan. Seminar Nasional Aplikasi Teknologi Informasi (SNATI), 19-22, 2014.

A. Riska, Mengenal Arduino Software IDE, March 16, 2016. Accessed on: July 6, 2019. [Online].

Available: https://www.sinauarduino.com/artikel/mengenal-arduino-software-ide/

M. Thakur, NodeMCU ESP8266 Communication Methods and Protocols: Programming with Arduino IDE. Amazon Digital Services LLC, 2018.

IoT4Beginners, What is Node-RED?, Accessed on July 17, 2019. [Online].

Available:https://iot4beginners.com/what-is-node-red/

G. S. Barbieri, Flow-Based Programming Applied to IoT Development, OpenIoT & ELC Europe2, 2016. Access on: 12 July, 2019. [Online]. Available:http://events.linuxfoundation.org/sites/events/files/slides/openiot2016- Flow%20Based%20Programming%20Applied%20t o%20IoT%20Development.pdf.

A. E. Wijaya and H. Nurjaman, “IMPLEMENTASI METODE WEIGHTED PRODUCT DALAM MEMONITOR GUDANG PENYIMPANAN ROTI BERBASIS INTERNET OF THING PADA PLATFORM NODE-RED”, JTIK, vol. 13, no. 1, pp. 1-15, Apr. 2020. https://doi.org/10.47561/a.v13i2.183

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Published

2020-10-01

How to Cite

[1]
T. F. Parlaungan S. and A. Sudrajat, “SISTEM PENENTUAN GUDANG BERAS BERBASIS IOT MENGGUNAKAN METODE SAW PADA PLATFORM THINGSBOARD”, JTIK, vol. 13, no. 2, pp. 93-107, Oct. 2020.

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