Article Per Year (5 Year)
p-Index From 2021 - 2026
0.562
P-Index
This Author published in this journals
All Journal Vocational : Jurnal Inovasi Pendidikan Kejuruan CENDEKIA : Jurnal Ilmu Pengetahuan
Ticoh, Janne Deivy
Unknown Affiliation
Education

Published : 3 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 3 Documents
Search

 1 
PERANCANGAN SISTEM SMARTHOME DENGAN KONSEP IOT BERBASIS ESP32 DI PERUMAHAN CITRALAND MANADO Mamengko, Marcelino Michel Fredrik; Ticoh, Janne Deivy; Mahendra, I Gede Budi
CENDEKIA: Jurnal Ilmu Pengetahuan Vol. 6 No. 1 (2026)
Publisher : Pusat Pengembangan Pendidikan dan Penelitian Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51878/cendekia.v6i1.8875

Abstract

The advancement of Internet of Things (IoT) technology has spurred the development of smart home systems that enhance security, comfort, and energy efficiency in residential environments. This study aims to design and develop a smart home prototype based on the ESP32 microcontroller, implemented within the context of Citraland Manado housing. The system integrates multiple sensors, including PIR for motion detection, DHT22 for temperature and humidity monitoring, and MQ-2 for hazardous gas detection, with actuators such as relays, solenoid locks, and buzzers. Data communication between devices and users is facilitated via the MQTT protocol using the HiveMQ Cloud broker, while the user interface is developed as a web-based Progressive Web App (PWA) accessible in real time from both mobile and desktop devices. The research employs a Research and Development (R&D) methodology with an iterative system development approach. Testing results demonstrate that all components function as designed, data communication remains stable with latency under one second, and the PWA interface is responsive and user-friendly. Nevertheless, the system still faces limitations regarding push notifications and long-term data storage. Overall, this prototype proves to be a viable, affordable, and self-reliant smart home solution with potential for further development and real-world implementation. ABSTRAK Perkembangan teknologi Internet of Things (IoT) mendorong hadirnya sistem smarthome yang mampu meningkatkan keamanan, kenyamanan, dan efisiensi energi di lingkungan perumahan. Penelitian ini bertujuan merancang dan mengembangkan prototipe sistem smarthome berbasis mikrokontroler ESP32 yang diimplementasikan dalam konteks Perumahan Citraland Manado. Sistem ini mengintegrasikan berbagai sensor, seperti PIR untuk deteksi gerakan, DHT22 untuk pemantauan suhu dan kelembapan, serta MQ-2 untuk deteksi gas berbahaya, dengan aktuator seperti relay, solenoid lock, dan buzzer. Komunikasi data antara perangkat dan pengguna dilakukan melalui protokol MQTT dengan broker HiveMQ Cloud, sedangkan antarmuka pengguna dibangun sebagai Progressive Web App (PWA) berbasis web yang dapat diakses secara real-time dari perangkat mobile maupun desktop. Metode penelitian yang digunakan adalah Research and Development (R&D) dengan pendekatan pengembangan sistem secara iteratif. Hasil pengujian menunjukkan bahwa seluruh komponen berfungsi sesuai rancangan, komunikasi data berjalan stabil dengan latensi di bawah 1 detik, dan antarmuka PWA responsif serta mudah digunakan. Meski demikian, sistem masih memiliki keterbatasan dalam hal notifikasi push dan penyimpanan data jangka panjang. Secara keseluruhan, prototipe ini terbukti layak sebagai solusi smarthome yang terjangkau, mandiri, dan dapat dikembangkan lebih lanjut untuk implementasi skala nyata.  
RANCANG BANGUN SISTEM SMART HOME BERBASIS IOT MENGGUNAKAN NODEMCU V3 (ESP8266) DAN BLYNK UNTUK MENINGKATKAN KEAMANAN DAN EFISIENSI PADA RUMAH TANGGA Karouw, Noval Valentino Natanael; Mamahit, Calvin Evangelista Johanes; Ticoh, Janne Deivy
VOCATIONAL: Jurnal Inovasi Pendidikan Kejuruan Vol. 6 No. 2 (2026)
Publisher : Pusat Pengembangan Pendidikan dan Penelitian Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51878/vocational.v6i2.9843

Abstract

The development of Internet of Things (IoT) technology has encouraged the integration of electronic devices in home automation systems known as smart homes. This system allows for automatic and remote monitoring, control, and security of homes via the internet. This study aims to design and build a home system to improve security and energy efficiency in households. The developed system integrates various sensors and actuators, including MQ-2 gas sensors, fire sensors, magnetic door sensors, ultrasonic sensors, relays, servo motors, buzzers, and an ESP32-CAM module as a monitoring camera. NodeMCU V3 (ESP8266) functions as a system controller that is connected to the internet network via WIFI and communicates with the Bynk application to send data, notifications, and control devices in real-time. In addition, this system is equipped with solar panels and batteries as backup power sources so that this system continues to function properly during power outages. The results of this study indicate that the designed smart home system is able to work integratedly and stably in detecting potential hazards, thereby increasing energy efficiency and comfort. NodeMCUv3 (ESP8266) and Blynk can be an effective, efficient, and affordable solution for improving household security and efficiency. This research is expected to serve as a reference in the development of IoT-based smart home systems in residential environments.
ANALISIS HARMONISA ARUS DAN TEGANGAN DARI VARIABEL SPEED DRIVE (VSD) TERHADAP PROFIL TEGANGAN DI JARINGAN DISTRIBUSI PT. PLN ULP TOMOHON MELALUI STUDI SIMULASI SOFTWARE ETAP Taroreh, Novitri; Ticoh, Janne Deivy; Memah, Viverdy; Seke, Fransiskus; Ridwan, Ridwan; Rapar, Jocke
VOCATIONAL: Jurnal Inovasi Pendidikan Kejuruan Vol. 6 No. 2 (2026)
Publisher : Pusat Pengembangan Pendidikan dan Penelitian Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51878/vocational.v6i2.10111

Abstract

Power quality is a critical factor in maintaining the reliability and efficiency of modern power systems, particularly in distribution networks that extensively utilize power electronic equipment. One of the primary sources of harmonic distortion is the use of Variable Speed Drives (VSDs), which operate as non-linear loads and cause current and voltage waveforms to deviate from their ideal sinusoidal shape. This study aims to analyze the harmonic characteristics generated by VSDs in the distribution system of PT. PLN ULP Tomohon, determine the levels of Total Harmonic Distortion of current (THD-I) and voltage (THD-V), and evaluate the effectiveness of harmonic mitigation using a passive single-tuned harmonic filter. The research employs a descriptive quantitative approach through modeling and simulation of the power system using the Electrical Transient Analyzer Program (ETAP) software. Technical system data, including transformer capacity, distribution network configuration, and load parameters, are modeled in the form of a Single Line Diagram (SLD) and analyzed using the Harmonic Load Flow module. The simulation results indicate that VSD operation produces dominant harmonics at the 5th and 7th orders, which significantly increase the THD levels within the system. The implementation of a passive single-tuned harmonic filter is shown to effectively reduce harmonic distortion, allowing the THD-I and THD-V values to approach or comply with the limits specified in the IEEE 519-2014 standard. Therefore, the application of appropriate harmonic mitigation methods can improve power quality, enhance energy efficiency, and increase the reliability of electrical power systems in distribution networks.
Co-Authors I Gede Budi Mahendra Karouw, Noval Valentino Natanael Mamahit, Calvin Evangelista Johanes Mamengko, Marcelino Michel Fredrik Rapar, Jocke Ridwan, Ridwan Seke, Fransiskus Royke Taroreh, Novitri Viverdy Memah