Articles
<![CDATA[Perancangan Lampu Pintar Berbasis Internet Of Things (IoT) Menggunakan Nodemcu Dan Blynk ]]>
<![CDATA[Sirait, Fahmi Aulia]]>;
<![CDATA[Akim M. H. Pardede]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Indonesian Journal of Education And Computer Science Vol. 1 No. 3 (2023): INDOTECH - December 2023 ]]>
Publisher : <![CDATA[PT. INOVASI TEKNOLOGI KOMPUTER ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.60076/indotech.v1i2.61
<![CDATA[This study focuses on the design of a smart lamp adopting the Internet of Things (IoT) concept using NodeMCU and the Blynk platform. This smart lamp is designed to provide users with more flexible and convenient control through the use of the internet network. NodeMCU, a development module based on the ESP8266 microcontroller, is employed as the core of the smart lamp to connect it to the Wi-Fi network. In the design phase, the smart lamp system is implemented with the capability to be controlled through the Blynk application downloadable to the user's smartphone device. Users can control the lamp, adjust its brightness, and change the light color according to preferences through the intuitive Blynk interface. Integration with the Blynk platform allows remote access and real-time monitoring of the smart lamp's status.The test results demonstrate that the designed smart lamp can effectively communicate with the Blynk application through the Wi-Fi network. The responsive control functionality and the ability to adjust light colors and brightness provide a satisfying user experience. By combining IoT technology and the Blynk platform, this study produces a tangible example of a smart lamp implementation that enhances the convenience and comfort of managing room lighting]]>
<![CDATA[Sistem Pemantauan Kesuburan Tanaman Pohon Durian menggunakan Internet Of Things (IOT) ]]>
<![CDATA[Anjellita Sundari Sumarsono]]>;
<![CDATA[Novriyenni Novriyenni]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Repeater : Publikasi Teknik Informatika dan Jaringan Vol. 2 No. 4 (2024): Oktober: Repeater : Publikasi Teknik Informatika dan Jaringan ]]>
Publisher : <![CDATA[Asosiasi Riset Teknik Elektro dan Informatika Indonesia ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.62951/repeater.v2i4.247
<![CDATA[Durian is one of the leading fruit commodities with high economic value in various tropical regions, including Indonesia. However, the durian cultivation process often faces challenges related to unstable environmental conditions, such as temperature fluctuations, soil moisture, and nutritional deficiencies which can affect the level of plant fertility and the quality of the fruit produced. Therefore, an effective and efficient monitoring system is needed to optimize durian plant care. This research aims to develop a fertility monitoring system for durian trees using Internet of Things (IoT) technology which can help farmers manage the environmental conditions of plants in real-time. The designed system uses various sensors, such as soil moisture sensors, air temperature and humidity sensors, light intensity sensors, and soil nutrient sensors, to collect relevant environmental data. The data obtained from these sensors is then processed by a microcontroller and sent via the IoT network to a cloud-based storage platform. The trial results show that this system can monitor environmental conditions with high accuracy and provide appropriate maintenance recommendations, thereby increasing efficiency in managing durian plants.]]>
<![CDATA[Rancang Bangun Alat Pendeteksi dan Pengusir Hama Tanaman Kangkung menggunakan Sensor Pir dan Cairan Peptisida Berbasis Internet Of Things (IOT) ]]>
<![CDATA[Putri Mayang Sari]]>;
<![CDATA[Novriyenni Novriyenni]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Repeater : Publikasi Teknik Informatika dan Jaringan Vol. 2 No. 4 (2024): Oktober: Repeater : Publikasi Teknik Informatika dan Jaringan ]]>
Publisher : <![CDATA[Asosiasi Riset Teknik Elektro dan Informatika Indonesia ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.62951/repeater.v2i4.248
<![CDATA[This research aims to design and build a tool for detecting and repelling pests on kale plants using Passive Infrared (PIR) sensors and Internet of Things (IoT) based pesticide liquid which can be controlled via the Telegram application. This system works by detecting the movement of pests using a PIR sensor, which then activates the mechanism for automatically spraying pesticide liquid to repel pests. Users can monitor and control this tool in real-time via Telegram, providing flexibility in plant monitoring. Data from sensors is sent to the IoT platform and integrated with Telegram to provide remote notifications and control. Test results show that this tool can detect the presence of pests with high accuracy and is effective in repelling pests from the kale plant area. It is hoped that the implementation of this tool can help farmers maintain the quality and quantity of their kale harvest in a more efficient and environmentally friendly manner.]]>
<![CDATA[Design and Construction of Monitoring and Control System in Swallow House Based on IoT ]]>
<![CDATA[Al Dimas Sausan Roidoh]]>;
<![CDATA[Sihombing, Marto]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Journal of Artificial Intelligence and Engineering Applications (JAIEA) Vol. 4 No. 1 (2024): October 2024 ]]>
Publisher : <![CDATA[Yayasan Kita Menulis ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.59934/jaiea.v4i1.623
<![CDATA[This study aims to design and build an Internet of Things (IoT) based monitoring and control system in a swiftlet building. Swiftlet nest farming is a rapidly growing industry in Indonesia, but still faces challenges in terms of monitoring and optimal environmental management for swiftlet productivity. The system developed integrates sensors to measure critical environmental parameters such as temperature. The research methodology includes hardware design using a microcontroller, sensors, and actuators connected to an IoT network. Software is developed to process sensor data, send it to blynk, and present information through a web interface that can be accessed remotely. This system is also equipped with an automatic control feature to keep environmental parameters within the optimal range. The results of the study show that the system is capable of real-time monitoring and providing notifications when an anomaly occurs. The automatic control feature successfully maintains temperature stability in the swiftlet building, where when the temperature read by the sensor is less than or equal to 25oC the lights will turn on and if the temperature is more than 29oC the lights will turn off. In conclusion, the implementation of this IoT-based monitoring and control system provides an effective solution to increase efficiency and productivity in swiftlet nest farming. This research opens up opportunities for further development in the application of IoT technology in the business sector, especially in swallow farming.]]>
<![CDATA[Design and Build Running Text Controls Using IoT ]]>
<![CDATA[Aji Tyo Syahputra]]>;
<![CDATA[Fauzi, Achmad]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Journal of Artificial Intelligence and Engineering Applications (JAIEA) Vol. 4 No. 1 (2024): October 2024 ]]>
Publisher : <![CDATA[Yayasan Kita Menulis ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.59934/jaiea.v4i1.625
<![CDATA[This research designs and builds an Internet of Things (IoT)-based running text control system using the P10 display module which can be controlled through the Blynk application and displays the temperature in real-time using the DHT22 sensor. The system consists of hardware such as a microcontroller, Wi-Fi module, P10 LED display, and DHT22 sensor to measure temperature and humidity. The Blynk app is used as a user interface to control the messages displayed on the P10 module and monitor the temperature data in real-time. Software development is carried out to integrate the hardware with the Blynk application and enable efficient data transmission. The test results show that this system is able to accurately display text messages and temperature data with low latency. These systems can be applied in a variety of scenarios such as public information systems, environmental surveillance, and dynamic advertising applications.]]>
<![CDATA[Design and Build Automatic Fan Control Based Internet of Things ]]>
<![CDATA[Septian, Refli]]>;
<![CDATA[Achmad Fauzi]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Journal of Artificial Intelligence and Engineering Applications (JAIEA) Vol. 4 No. 1 (2024): October 2024 ]]>
Publisher : <![CDATA[Yayasan Kita Menulis ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.59934/jaiea.v4i1.634
<![CDATA[This research aims to create and develop an automatic fan control system based on the Internet of Things (IoT) that can regulate the room temperature well. The NodeMCU ESP8266 serve as a microcontroller for this system. The DHT22 sensor detects temperature, the L298N Driver Motor controls the speed of the 12V DC fan, and the 16x2 LCD displays temperature information in realtime. When the room temperature exceeds the threshold, the fan will automatically turn on and off when the temperature returns to normal. The Blynk app also allows users to monitor and control fans through smartphones. It allows users to manually control the fan and monitor it remotely. The results of the study show that this system works well and improves user comfort by managing the room temperature. The system also offers high flexibility with IoT integration, allowing for further development for wider applications in home automation and energy management.]]>
<![CDATA[Prototype of Fish Drying Device for the Production of Salted Fish Based on IoT ]]>
<![CDATA[Rezeki, Sri]]>;
<![CDATA[Novriyenni]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Journal of Artificial Intelligence and Engineering Applications (JAIEA) Vol. 4 No. 1 (2024): October 2024 ]]>
Publisher : <![CDATA[Yayasan Kita Menulis ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.59934/jaiea.v4i1.641
<![CDATA[The prototype of the fish drying tool for the production of salted fish is designed to enhance efficiency and control in the salted fish drying process by utilizing IoT technology to monitor and regulate the drying environment conditions. The DHT22 sensor connected to port D5 is used to measure temperature and humidity inside the drying room. The data collected by this sensor is sent to a microcontroller connected to a relay to control the heater and DC fan, as well as a buzzer as a warning system if the room temperature exceeds 60° C. The Blynk application is used for a user interface that allows for the remote monitoring and adjustment of drying parameters via a smartphone. The test results show that this system is capable of maintaining the conditions for drying salted fish within optimal temperature and humidity ranges, thereby improving the quality and efficiency of the drying process. The integration of IoT technology in this device facilitates monitoring and control, as well as enhancing the overall effectiveness of the drying process.]]>
<![CDATA[Design and Construction of Guest Friendly Robot for Front Office Service on Campus Based on IoT ]]>
<![CDATA[Putri Purwani, Dea Nanda]]>;
<![CDATA[Buaton, Relita]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Journal of Artificial Intelligence and Engineering Applications (JAIEA) Vol. 4 No. 1 (2024): October 2024 ]]>
Publisher : <![CDATA[Yayasan Kita Menulis ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.59934/jaiea.v4i1.666
<![CDATA[Amid the rapid advancements of the digital era, Internet of Things (IoT) technology has emerged as one of the most significant innovations, enabling electronic devices to connect and interact intelligently. This study aims to design and develop an IoT-based guest reception robot intended for front office services at the campus. The robot is designed as a prototype capable of welcoming guests, saying "welcome," and providing four key pieces of information about the campus. Utilizing components such as ESP32 and ultrasonic sensors, the robot is expected to enhance service efficiency while also offering a more interactive experience for campus visitors. The implementation of IoT in this robot is not only intended to improve visitor services but also to promote technological innovation within the campus environment. This study also explores the integration of hardware and software, as well as the features and functions needed to meet the requirements of front office services. Thus, this research is expected to serve as a foundational step toward creating a more modern and innovative campus.]]>
<![CDATA[Rancang Bangun Inkubator Penetasan Telur Bebek Berbasis Internet of Things (IoT) ]]>
<![CDATA[Rendy Aginta]]>;
<![CDATA[Achmad Fauzi]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Indonesian Journal of Science, Technology and Humanities Vol. 2 No. 3 (2025): IJSTECH - February 2025 ]]>
Publisher : <![CDATA[PT. INOVASI TEKNOLOGI KOMPUTER ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
|
DOI: 10.60076/ijstech.v2i3.848
<![CDATA[Penelitian ini berhasil merancang sebuah alat penetas telur bebek berbasis Internet of Things (IoT) yang efektif. Dengan menggunakan mikrokontroler NodeMCU ESP8266, sensor DHT11, dan aplikasi Blynk, alat ini mampu mengendalikan dan memantau suhu serta kelembapan secara otomatis dan real-time. Sistem ini mempermudah proses penetasan telur dengan meningkatkan efisiensi dan produktivitas dibandingkan metode konvensional, Kestabilan suhu pada alat penetas dijaga dengan menggunakan sensor DHT11 yang terhubung dengan NodeMCU ESP8266 untuk mengontrol lampu pijar sebagai sumber panas. Sistem ini memastikan bahwa suhu di dalam inkubator tetap berada dalam kisaran yang optimal untuk penetasan, yaitu relatif pada 36˚C Alat ini memungkinkan pemantauan secara real-time melalui aplikasi Blynk yang terhubung dengan internet. Pengguna dapat memantau kondisi suhu dan kelembapan serta mendeteksi gerakan telur dari jarak jauh menggunakan perangkat mobile, sehingga tidak perlu berada di dekat inkubator secara langsung.Data suhu dan kelembapan yang terdeteksi oleh sensor DHT11 divisualisasikan dalam aplikasi Blynk, yang menyediakan tampilan yang intuitif dan mudah dimengerti. Hal ini memudahkan pengguna dalam memantau kondisi inkubator dan membuat keputusan berdasarkan data yang tersedia secara cepat dan akurat.Alat ini juga memungkinkan untuk penghangatan anakan bebek atau day on duck (dod) ketika cuaca sedang sangat dingin]]>
<![CDATA[Rancang Bangun Sistem Kontrol Suhu Pada Ternak Ayam Berbasis Internet of Things (IoT) ]]>
<![CDATA[Alwa Hul Karim]]>;
<![CDATA[Hotler Manurung]]>;
<![CDATA[Milli Alfhi Syari]]>
<![CDATA[ Nusantara Journal of Multidisciplinary Science Vol. 2 No. 8 (2025): NJMS - Maret 2025 ]]>
Publisher : <![CDATA[PT. Inovasi Teknologi Komputer ]]>
Show Abstract
|
Download Original
|
Original Source
|
Check in Google Scholar
<![CDATA[Penelitian ini merupakan perancangan dan bangun alat berbasis Internet of Things yang diimplementasikan pada kandang ayam dengan rentang usia 8-15 hari yaitu dengan pemantauan suhu otomatis yang divisualkan pada Blynk secara real-time.Penelitian ini menggunakan sistem kontrol suhu dengan sensor DHT 11 sebagai pendeteksi suhu dan menggunakan NodeMCU ESP8266 sebagai mikrokontroller. Sistem kontrol suhu kandang ayam menggunakan internet untuk terhubung dengan aplikasi Blynk yang menampilkan data suhu menggunakan gauge chart. Penelitian ini juga membantu dalam penekanan angka kematian pada anak ayam usia dini terkhusus pada usia rentan yaitu dibawah 15 hari. Dengan adanya sistem kontrol suhu pada kandang ayam menggunakan Internet of Things juga membantu peternak ayam skala rumahan maupun skala besar]]>
