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All Journal Ammatoa : Journal of Informatics, Computer
Adi Chandra
Institut Teknologi Dan Bisnis Bina Adinata
Automotive Engineering Computer Science & IT Control & Systems Engineering Engineering Industrial & Manufacturing Engineering

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PROTOTYPE MONITORING DAN PENGONTROLAN SUARA, SUHU DAN KELEMBABAN RUMAH BURUNG WALET BERBASIS INTERNET OF THINGS Sahrul; Adi Chandra; Muhammad Awal Nur
Journal System Information And Computer Vol 1 No 1 (2023): Volume 1, No 1, 2023
Publisher : Institut Teknologi dan Bisnis Bina Adinata

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63989/ammatoa.v1i1.3

Abstract

This study aims to: (1) make a prototype of a tool that can monitor and control the sound, temperature and humidity of the swiftlet house based on the Internet of Things. (2) find out the implementation of a prototype monitoring and control of sound, temperature and humidity based on the Internet of Things in the swallow's house. This study uses a prototype research method (prototyping). The stages of making tools using prototypes are gathering requirements, building prototypes, evaluating prototypes, coding the system, testing the system, evaluating the system, using the system. This study uses data collection techniques, namely, observation, interviews, literature study, questionnaires, documentation. The research results show that: (1) prototype monitoring and controlling sound, temperature and humidity of internet-based swallow bird houses was designed with flowcharts and system block diagrams and was made using sensors DHT11, RTC DS3231, DfPlayer mini, speakers, water pumps and NodeMCU ESP8266 and use the blynk application. The blynk application can run on smartphone specifications with a minimum RAM of 1.5 GB with Android version 6.0 and above. (2) implementation of a prototype monitoring and controlling sound, temperature and humidity based on the internet of things swallow bird house can perform watering automatically properly, the system can also display humidity and temperature conditions using the blynk application on a smartphone. This prototype can also play sound properly according to the time specified and displayed in the blynk application. Where the watering system occurs when the temperature reaches 29o C it will do automatic watering so that it reduces temperature conditions, if the temperature is below 29o C then the watering will stop automatically. Meanwhile, the speaker will sound automatically at 05.00 WITA and if it is at 20.00 WITA, the speaker will turn off automatically.
RANCANG BANGUN SMART ROOM MENGGUNAKAN VOICE RECOGNITION BERBASIS ESP32 DAN BLYNK jusdi; Adi Chandra; Nurwahid Syam
Journal System Information And Computer Vol 1 No 1 (2023): Volume 1, No 1, 2023
Publisher : Institut Teknologi dan Bisnis Bina Adinata

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63989/ammatoa.v1i1.5

Abstract

This study aims to: 1) To design a smart room using voice recognition based on esp32 and blynk. 2) To implement innovative room design using voice recognition based on esp32 and blynk.The research method used in this study is a research method adopted from Research and Development (R & D) with 6 stages, namely (1) potential, (2) information gathering, (3) design, (4) validation, (5) Revision, (6) trials, carried out directly at the research location.The results of this study are (1) The process of making this tool takes about 20 days because the components used are ordered online so you have to wait approximately 1 week. When making this tool, it is only constrained by time, both when assembled, then programmed after programmed tested, and then calibrated the temperature in the room after going through several stages of the tool.
Prototype Monitoring Alat Elektronik Pada Masjid Nurul Amin Lahumbung Berbasis Internet Of Things Syamsul Ma'Arif; Adi Chandra; Muhammad Awal Nur
Journal System Information And Computer Vol 3 No 1 (2025): April
Publisher : Institut Teknologi dan Bisnis Bina Adinata

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.63989/ammatoa.v3i1.196

Abstract

This study aims to: (1) To make a prototype of monitoring electronic devices in nurul amin lahumbung mosque based on the internet of things. (2) To find out the implementation of the prototype monitoring of electronic devices in the nurul amin lahumbung mosque based on the internet of things. This research used the prototype (prototyping) method. The stages of making tools using prototypes are gathering needs, building prototypes, evaluating prototypes, coding systems, testing systems, evaluating systems, using systems. The results of this study indicate that: (1) Prototype monitoring of electronic devices at the Nurul Amin Lahumbung mosque based on the internet of things is designed or made using NodeMcu Esp8266, Relay, Dht11 Sensor, Dfmini Player, Speaker, Fan, Lamp, Android Smartphone, Blynk Application, Wifi and 5V Adapter. The Blynk application as a timer as well as media monitoring and the Blynk application can run on smartphone specifications of at least 1.5 GB RAM with Android version 10 and above. (2) Implementation of prototype monitoring of electronic devices at the Nurul Amin Lahumbung mosque based on the internet of things can turn on the sound automatically properly according to the specified time and notifications are displayed in the Blynk application. Can turn on the lights automatically well at dawn, maghrib and Isha prayers. Can turn on the fan / turn off the fan automatically properly where the fan will turn on when the temperature is above 25oC and the fan will turn off when the temperature is below 25oC.
PENGEMBANGAN SISTEM MONITORING KUALITAS AIR EMPANG MENGGUNAKAN MIKROKNTROLER ESP32 Khaerun Nisa; Adi Chandra; Nurwahid Syam
Journal System Information And Computer Vol 3 No 02 (2025): Oktober
Publisher : Institut Teknologi dan Bisnis Bina Adinata

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

This study aims to design the Development of a Pond Water Quality Monitoring System Using the Esp32 Microcontroller in the Panyutanah hamlet shrimp pond, to implement and determine the community's response to the development of the Pond water quality monitoring system using the Esp32 microcontroller with Telegram notifications. This research uses development research methods adapted from the 4-D model (Four-D Model), which includes the stages of defining, designing, and developing. Based on the results of research on developing a pond water quality monitoring system using the Esp32 microcontroller, it can be concluded that: (1) This tool uses the Esp32 Microcontroller as a data processor, servo motor (water pump) as a place for water to enter and exit, the LCD functions to display the pH value and the temperature given by the sensor, as well as Telegram as a monitoring tool. As for testing the system used using the Black Box method. (2) From the test results it was found that the development of a pond water quality monitoring system using the Esp32 microcontroller could make it easier for shrimp farmers to know the water quality automatically.
Co-Authors jusdi Khaerun Nisa Nur, Muhammad Awal Nurwahid Syam Sahrul Syamsul Ma'Arif