IMPLEMENTATION OF INTERNET OF THINGS (IOT) TO SIMULATE TEMPERATURE AND HUMIDITY IN NON STERILE MEDICINE PRODUCTION ROOMS USING TEMPERATURE SENSORS (LM 35) AND HUMIDITY SENSORS (DHT 22) BASED ON ARDUINO AND WEB

Authors

  • Mateus Bimahatma Undergraduate Computer Systems Study Program, College of Electronics and Computers
  • Dani Sasmoko Undergraduate Computer Systems Study Program, College of Electronics and Computers
  • Jarot Dian Susatyono Undergraduate Computer Systems Study Program, College of Electronics and Computers

DOI:

https://doi.org/10.51903/jtie.v2i3.165

Keywords:

Arduino, LM35 Sensor, DHT22 Sensor, DC Fan, Website, ESP8266

Abstract

The development of increasingly sophisticated pharmaceutical industry technology requires researchers to develop technology in the pharmaceutical industry that can help employees carry out their duties. As we know, technology is very helpful in providing job data in industry. Information technology can improve the quality of work in industry. One of them is about monitoring temperature and humidity in the non-sterile drug production room. This temperature and humidity is monitored by the QA ( Quality Assurance )/Quality Assurance department, which is used to see whether the temperature and humidity of the non-sterile drug production room are well conditioned.Based on the existing problems, it is necessary to have an intelligent system that can monitor temperature and humidity precisely and periodically. One of them is creating an Internet of Things (IoT) Implementation tool for Simulating Temperature and Humidity in a Non-Sterile Medicine Production Room Using an Arduino and Web Based Temperature Sensor ( LM35 ) and Humidity Sensor ( DHT 22 ). This tool will periodically detect the temperature and humidity in each non-sterile drug production room. If the temperature exceeds the maximum limit in the non-sterile drug production room, the fan will turn on to release the hot air inside. All the data that has been collected will be processed by the Arduino Uno R3 Microcontroller and will be displayed on the website as an interface . For early detection, a DC Fan appears on the website that rotates if the temperature exceeds the maximum limit. Data transmission uses ESP8266 as a wireless module .

References

Ade Hendini, 2016; " UML MODELING OF SALES AND STOCK MONITORING INFORMATION SYSTEMS ( CASE STUDY: ZHEZA PONTIANAK DISTRO )", Pontianak: AMIK BSI Pontianak.

Alfan, Haris, Mohamad, Isman, Setya, 2017; " Simulation of Microcontroller-Based Vertical Vibration Threshold Detection as an Indicator of Rider Comfort and Safety in Motorized Vehicles ", Yogyakarta: STMIK AMIKOM.

Ali, Tita, Ahmad, 2013; " LOGIC AND ALGORITHM ", Surabaya: Surabaya State Electronics Polytechnic.

Andi, Prabowo, Bambang, 2010; " Making and Testing a Data Logger Based on an Atmega 32 Microcontroller for Monitoring Land Shifts ", Physics Journal of the Indonesian Physics Association, Vol. 10 – No.2.

Aulia Faqih Rifa'i, 2016; " Gas Leak Detection and Monitoring System (Liquefied Petrolum Gas) based on the Internet of Things ", Yogyakarta: UIN Sunan Kalijaga.

Christian, Kurnia, 2013; " Designing a Baby Incubator with Temperature and Humidity Control Based on the ATmega8535 Microcontroller ", Medan: University of North Sumatra.

CPOB, 2012; " How to Make Good Medicine ".

Dany Setiawan, 2014; "Arduino Uno", Information Technology Science.

Dr. Ir. Saludin Muis, M. Kom, 2013; " LCD Working Principles and Manufacturing (Liquid Crystal Display) ", Yogyakarta: Graha Ilmu.

Ernita Dewi Meutia, 2015; " Internet of Things – Security and Privacy ", Banda Aceh: Syiah Kuala University.

Fajri, M. Farhan, Rachmansyah, Eka, 2013; " Cigarette Smoke Detection System in Smoke-Free Rooms with Sound Output ", AMIK GI MDP.

Heri, Aan, 2016; " Arduino Fast Learning and Programming ", Bandung: Informatics Bandung.

Irvan Nurseha, 2014; “ Designing an Expired Stock Quality Control Information System at PT. Catur Sentosa Anugerah ”, Tangerang : STMIK RAHARJA.

Joko Nugroho, 2014; " Temperature and Humidity Detection Monitoring System in Mushroom Houses Based on the AT-MEGA 328 Microcontroller ", Ponorogo: Muhammadiyah University of Ponorogo.

POPP, 2013; " Operational Instructions for Implementing CPOB Guidelines ".

Prastuti, 2009; " Visual Modeling Using UML and Rational Rose ", DYNAMIC Information Technology Journal Volume XIV, No.1.

Priyanto,jauhari, 2014; " Web Programming ", Bandung: Informatics Bandung.

Richard NC, 2014; “ Internet of Things and Embedded Systems for Indonesia ”, Serpong : Surya University.

Totok Budioko, 2016; " Internet of Things Based Remote Temperature Monitoring System Using MQTT Protocol ", Yogyakarta: STMIK AKAKOM.

Yoga Alif Kurnia Utama, S.ST., MT, 2016; " Quality Comparison Between Temperature Sensors Using Arduino Pro Mini ", NARODROID e-Journal, Vol.2 No.2.

Published

2024-05-10

How to Cite

IMPLEMENTATION OF INTERNET OF THINGS (IOT) TO SIMULATE TEMPERATURE AND HUMIDITY IN NON STERILE MEDICINE PRODUCTION ROOMS USING TEMPERATURE SENSORS (LM 35) AND HUMIDITY SENSORS (DHT 22) BASED ON ARDUINO AND WEB. (2024). Journal of Technology Informatics and Engineering, 2(3), 61-87. https://doi.org/10.51903/jtie.v2i3.165