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All Journal International Journal of Electrical and Computer Engineering Seminar Nasional Aplikasi Teknologi Informasi (SNATI) Jurnal Ilmiah Informatika Komputer Jurnal Ilmiah Teknologi dan Rekayasa Prosiding KOMMIT Prosiding PESAT Jurnal Ilmiah KOMPUTASI Electro Luceat Batoboh : Jurnal Pengabdian Pada Masyarakat JurTI (JURNAL TEKNOLOGI INFORMASI) The IJICS (International Journal of Informatics and Computer Science) Teknika International Journal of Engineering, Science and Information Technology JITSI : Jurnal Ilmiah Teknologi Sistem Informasi MARAS : Jurnal Penelitian Multidisplin
Wahyu Kusuma Raharja
Gunadarma University
Arts Humanities Astronomy Automotive Engineering Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Earth & Planetary Sciences Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Law, Crime, Criminology & Criminal Justice Library & Information Science Materials Science & Nanotechnology Mathematics Mechanical Engineering Physics Public Health Social Sciences Transportation Other

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Journal : Electro Luceat

 1 
PURWARUPA ALAT TELEMONITORING KEAMANAN RUANGAN MENGGUNAKAN IDENTIFIKASI SIDIK JARI BERBASIS INTERNET OF THINGS Wahyu Kusuma Raharja; Bagas Santoso
Electro Luceat Vol 6 No 2 (2020): Electro Luceat (JEC) - November 2020
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v6i2.227

Abstract

Human needs storage of documents or valuables requires a place that has good security from the act of others from theft. The storage area can be in the form of a safe or room. One way to increase the security of the room in a building is by creating a monitoring tool that is controlled remotely using the internet network. In addition, you can also use a fingerprint sensor that can identify users who leave or enter the room. This study aims to produce a prototype room security monitoring system with fingerprint identification using the internet network for data transfer processes on a web database. The tool is designed and built using a fingerprint sensor and push button as an input block, Arduino uno and nodemcu esp8266 as a process block, servo motor, relay, solenoid and 16x2 LCD as outputs to be connected to form a circuit. This research succeeded in designing and building a room security monitoring tool prototype using fingerprints based on the internet of things. The results of room user data record information are displayed on the website with the address http://home-guard.000webhostapp.com/index.php. Based on the testing of this tool using a fingerprint sensor can detect fingerprints both registered and unregistered. The results of the time delay testing from the fingerprint detection sensor process until the information entered on the display on the website is an average of 2.25 seconds
PURWARUPA ALAT PENDETEKSI KEBAKARAN JARAK JAUH MENGGUNAKAN PLATFORM THINGER.IO reisditama ramadhon; Wahyu Kusuma Raharja
Electro Luceat Vol 7 No 2 (2021): Electro Luceat (JEC) - November 2021
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v7i2.380

Abstract

Fires that occur at this time when the house is left empty by the owner Fires cannot be estimated at the place and time, and will occur at any time so that tools are needed to detect fire events. Currently, most of the fire detection tools are still not integrated by the internet and the fire department, which results in delays in the arrival of the fire department to the location.For this reason, a home fire detector was made using the Thinger.Io platform as a server to display the occurrence of fires in a house. This tool uses NodeMCU ESP8266 as a connection to the internet. There are two sensors used, namely a flame sensor and a DHT11 sensor and several electronic components used including relays, water pumps, and buzzers. The test is carried out by sending data using the NodeMCU ESP8266 in real-time to the Thinger.Io platform.Based on tool testing, the tool can work well. The results of the comparison of the DHT11 sensor value with the thermometer produce an error percentage value of 1.4%. The results of testing the delay in the process of sending data from the device to the Thinger.Io platform require an average of 03.04 seconds later for testing the accuracy of GPS showing accurate coordinates on operator 3, Telkomsel, Indosat and XL. This tool can send email notifications via the platform thinger.Io to the fire department then Firefighters who receive the email will immediately get ready and rush to the fire location to extinguish the fire and save fire victims.
APPLICATION OF THE INTERNET OF THINGS FOR ENVIRONMENTAL MONITORING OF GRAPE LAND Wahyu Kusuma Raharja
Electro Luceat Vol 9 No 1 (2023): Electro Luceat (JEC) - Juli 2023
Publisher : LPPM Poltek ST Paul

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32531/jelekn.v9i1.461

Abstract

The development of information and communication technology is growing rapidly. One of the focuses of development is Internet of Things (IoT) technology. Various applications can take advantage of this technology, including telemonitoring tools in agriculture, especially the land environment on grapevines in real time and remote control. Parameters that can be monitored include Soil Humidity, Light Intensity, Air Humidity and Air Temperature. This study aims to design and build a prototype of an IoT-based vineyard environmental telemonitoring tool. This research can be applied in smart farming, especially for grape farmers. The tool is made up of 3 sensors, namely DHT11 (Humidity, Temperature), LDR (Photoresistor/Light) and YL-69 (Moisture). Arduino ESP32 kit module as a processing unit for all light, temperature and humidity variables. The processing results are displayed on the Smartphone via the Blynk application. The output of this tool can also monitor grapevines through a camera and perform watering automatically using a water pump. Based on the instrument's accuracy test which was carried out on 3 parameters of the land environment and compared to similar tools, the results of the measurement of light intensity obtained an average accuracy of 72.85%. In the temperature test, the average accuracy result is 93.75%. In the soil moisture test, the average accuracy result is 87.25%.
Co-Authors Abdul Hanif Al Baaits Affandy, Idris Agustian Rizal Ambary, Ilham Muarif Andy Susanto Angga Maulana Any K. Yapie Ardi Reda Madani, Heru Galang Bagas Santoso Chasannatun, Fida Dede Herman Suryana Dewi Miranti Wijaya, Dewi Miranti Eriza Siti Mulyani Freddy Artadima Silaban Glenn Natanael Sofian Intan Ayuni Jalinas Karjadi, Mochamad Kennedy Muhammad Oka Suhilman Muhammad Oka Suhilman Ninda Kusumayani Prajudi William Chrisdeardo Prajudi William Chrisdeardo Putra, Ilham Tejana Ramadhani, Zahra reisditama ramadhon Risdiandri Iskandar Rivabillah, Copa Sendy Frandika Setiyo Budiyanto Setyansah, Rezaa Kusuma Sumeni, Murti Tika Erista Varesa Bunga Odielia