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Telecontrolling the Environmental Quality of Chilli Katokkon Plants Using the Internet Of Things AISYAH NOVFITRI; Septriandi Wirayoga; Miftakhul Huda
Journal of Informatics and Communication Technology (JICT) Vol. 7 No. 1 (2025)
Publisher : PPM Telkom University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52661/jict.v7i1.406

This research presents the design and implementation of an Internet of Things (IoT)-based environmental control system for optimizing the growth of Cabai Katokkon, a local chili variety from Toraja. The system integrates ESP32, pH sensors, temperature and humidity sensors, mist-based irrigation, and smart lighting (red and blue LEDs) to maintain optimal environmental conditions inside a greenhouse. Real-time monitoring and control are achieved through a mobile application, allowing remote management of temperature, humidity, soil pH, and lighting intensity. Over a four-month observation period, the system maintained soil pH within 5.3–6.5, temperature between 22–30°C, and humidity levels of 70–77%, all within optimal ranges for Cabai Katokkon growth. Automated misting and lighting systems responded effectively to sensor data, ensuring consistent environmental conditions. Results indicate that plants grown under this system showed improved growth rates, with increased stem height and diameter compared to traditional methods. This demonstrates that controlled environmental parameters significantly support photosynthesis and accelerate plant development. The system also proved efficient in reducing manual labor and minimizing human error. Overall, this IoT-based solution offers a modern, scalable approach to precision agriculture, especially in areas with limited natural light and space.

Telecontrolling the Environmental Quality of Chilli Katokkon Plants Using the Internet Of Things AISYAH NOVFITRI; Septriandi Wirayoga; Miftakhul Huda
Journal of Informatics and Communication Technology (JICT) Vol. 7 No. 1 (2025)
Publisher : PPM Telkom University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.52661/jict.v7i1.406

This research presents the design and implementation of an Internet of Things (IoT)-based environmental control system for optimizing the growth of Cabai Katokkon, a local chili variety from Toraja. The system integrates ESP32, pH sensors, temperature and humidity sensors, mist-based irrigation, and smart lighting (red and blue LEDs) to maintain optimal environmental conditions inside a greenhouse. Real-time monitoring and control are achieved through a mobile application, allowing remote management of temperature, humidity, soil pH, and lighting intensity. Over a four-month observation period, the system maintained soil pH within 5.3–6.5, temperature between 22–30°C, and humidity levels of 70–77%, all within optimal ranges for Cabai Katokkon growth. Automated misting and lighting systems responded effectively to sensor data, ensuring consistent environmental conditions. Results indicate that plants grown under this system showed improved growth rates, with increased stem height and diameter compared to traditional methods. This demonstrates that controlled environmental parameters significantly support photosynthesis and accelerate plant development. The system also proved efficient in reducing manual labor and minimizing human error. Overall, this IoT-based solution offers a modern, scalable approach to precision agriculture, especially in areas with limited natural light and space.

Optimasi Penjualan UMKM Jamu NGEJAMU ANG KEKINIAN dengan Pembuatan Box Cooler Portable Berbasis Mikrokontroller Miftakhul Huda; Septriandi Wirayoga; Guntur Yanuar Astono; Isac Ilham Akbar Habibi; Azam Muzakhim Imammuddin
Nusantara: Jurnal Pengabdian kepada Masyarakat Vol. 5 No. 4 (2025): November: NUSANTARA Jurnal Pengabdian Kepada Masyarakat
Publisher : Pusat Riset dan Inovasi Nasional

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55606/nusantara.v5i4.6799

Traditional herbal medicine MSMEs face challenges in increasing the appeal of their products among the younger generation who prefer fresh and modern drinks. To overcome this, innovation in the presentation of herbal medicine is needed to make it more practical, hygienic and attractive. One solution is the manufacture of a microcontroller-based portable box cooler that can maintain the freshness of herbal medicine at an optimal temperature. This box cooler is equipped with an automatic cooling system controlled by a microcontroller, ensuring the jamu stays fresh and high quality for a longer period of time. A temperature sensor monitors and adjusts the cooling conditions as needed, so that the herbs remain at their best when served. In addition, the automatic dispenser system helps regulate the volume of herbs dispensed precisely, reducing wastage and maintaining flavour consistency. With its portable and efficient design, this box cooler is perfect for use in various locations such as bazaars, cafes, offices, or community events. This innovation not only improves the efficiency and competitiveness of MSMEs, but also reinforces the image of jamu as a modern and contemporary healthy drink, making it more attractive to young consumers.

Workshop Pelatihan Mikrokontroller Arduino dan ESP32 untuk Siswa SMP Islam Sawahan Turen Azam Muzakhim Imammuddin; Septriandi Wirayoga; Moh. Abdullah Anshori; Isac Ilham Akbar Habibi; Guntur Yanuar Astono; Miftakhul Huda
Transformasi Masyarakat : Jurnal Inovasi Sosial dan Pengabdian Vol. 2 No. 4 (2025): Oktober: Transformasi Masyarakat : Jurnal Inovasi Sosial dan Pengabdian
Publisher : Lembaga Pengembangan Kinerja Dosen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62383/transformasi.v2i4.2191

This community service initiative was carried out with the aim of introducing and training students of SMP Islam Sawahan Turen in programming and utilizing Arduino and ESP32 microcontrollers as a foundation for understanding modern technology. The workshop was specifically designed to provide students with knowledge of basic electronic concepts, sensors, and data communication, while also equipping them with practical skills to create simple microcontroller-based projects. During the sessions, participants received explanations about Arduino and ESP32, including how to connect sensors, process collected data, and transmit information to the Internet of Things (IoT) platform. In addition to the theoretical materials delivered, students were given opportunities to engage in direct practice under the guidance of experienced instructors, allowing them to gain a deeper comprehension of how the devices function. The combination of theory and practice helped students strengthen both their conceptual understanding and their technical abilities. Furthermore, the activity aimed to foster creativity and curiosity among participants in designing innovative projects that have real-life applications. This spirit of exploration is expected to nurture problem-solving skills, adaptability, and technological awareness from an early age. Beyond simply broadening students’ technological insights, the program also contributes to the enhancement of their competencies and preparedness in facing challenges of the digital era, ensuring that they can continue to grow as innovative learners and future innovators.

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