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All Journal Jurnal Teknik Informatika Journal of Sustainable Engineering: Proceedings Series Jurnal Ilmiah Realtech Jurnal Edunitro Jurnal Teknik Elektro dan Komputer
Pinrolinvic D.K. Manembu
Department Of Electrical Engineering, Faculty Of Engineering, Universitas Sam Ratulangi, Jln. Kampus Unsrat, Bahu - Manado 95115, INDONESIA
Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Education Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering Library & Information Science Mechanical Engineering Other

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Digital Image Processing Application on Shallots Quality Determination Jane I. Litouw; Feisy D. Kambey; Pinrolinvic D.K. Manembu
Journal of Sustainable Engineering: Proceedings Series Vol 1 No 2 (2019)
Publisher : Fakultas Teknik Universitas Sam Ratulangi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35793/joseps.v1i2.21

Abstract

Shallot is a horticultural vegetable commodity that has high economic value. North Sulawesi is one of the central production of shallots which has several onion varieties developed and marketed. Technology that can help determine the quality of shallots is needed to simplify the marketing process. This study aims to simulate a system for determining the quality of shallots based on their color and size. The shallot bulb image of several different varieties is input for this system to be able to provide good and bad shallot marks.
Sistem Kontrol Dan Pemantauan Berbasis IoT untuk Kenyamanan Ternak Unggas: IoT Based Control And Monitoring System for Poultry Convenience Runtuwene, David Christo; Poekoel , Vecky C.; Manembu, Pinrolinvic D.K.
Jurnal Teknik Elektro dan Komputer Vol. 13 No. 02 (2024): Jurnal Teknik Elektro dan Komputer
Publisher : Universitas Sam Ratulangi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35793/jtek.v13i02.51842

Abstract

Abstract — Chicken farmers usually still use conventional methods, whereas cage cleaning is still done manually at uncertain times. Even though the cleanliness of the cage itself must be done regularly so that livestock avoid diseases caused by feces in the cage, because the ammonia threshold level produced by chicken feces should not exceed 25 ppm. In terms of chicken comfort, temperature also plays an important role in the brooding period, the temperature of the cage must be really warm and range between 30°C-34°C. To maintain ammonia levels and chicken coop temperature in accordance with health standards and chicken comfort, it is necessary to implement an IoT-based chicken coop control and monitoring system. This research focuses on a system for use on broiler breeding chicken farms whose support system uses IoT. This system uses a DHT22 sensor to measure the temperature and humidity of the cage and an MQ135 sensor to detect ammonia in the air. The ESP32 microcontroller is used as a controller as well as a network communication tool for the IoT system. The chicken coop's temperature and ammonia control system is successfully designed and can be monitored using the smartphone application via an internet connection. Keywords — Chicken cage; Control and Monitoring; Internet of Things; Temperature and ammonia control.     Abstrak — Saat ini peternak ayam biasanya masih menggunakan cara konvensional, dimana pembersihan kandang masih dilakukan secara manual pada waktu yang tidak menentu. Padahal kebersihan kandang sendiri harus dilakukan secara teratur agar ternak terhindar dari penyakit yang disebabkan kotoran dalam kandang, sebab kadar ambang batas amonia yang dihasilkan oleh kotoran ayam tidak boleh melebihi 25 ppm. Dalam hal kenyamanan ayam, suhu juga berperan penting dalam masa pembesaran atau brooding, suhu kandang harus benar-benar hangat dan berkisar antara 30°C-34°C. Untuk menjaga kadar amonia serta suhu kandang ayam sesuai dengan standar kesehatan dan kenyamaan ayam, maka perlu diterapkan sistem kontrol dan monitoring kandang ayam berbasis IoT. Penelitian ini fokus pada sistem untuk digunakan pada peternakan ayam bibit ayam broiler yang sistem pendukungnya menggunakan IoT. Sistem ini menggunakan sensor DHT22 untuk mengukur suhu dan kelembapan kandang serta sensor MQ135 untuk mendeteksi amonia di udara. Adapun mikrokontroler ESP32 digunakan sebagai sebagai pengontrol sekaligus alat komunikasi jaringan untuk sistem IoT. Sistem kontrol suhu dan amonia pada kandang ayam berhasil dirancang dan dapat dipantau menggunakan aplikasi ponsel pintal melalui koneksi internet. Kata kunci — IoT; Kandang Ayam; kontrol dan pemantauan; kontrol suhu dan amonia.
Pengembangan Platform Internet Of Things (IoT) menggunakan komunikasi WebSocket: Internet Of Things (IoT) Platform Development using WebSocket communication Kojansow, Charles William; Manembu, Pinrolinvic D. K.; Rumagit, Arthur M.
Jurnal Teknik Informatika Vol. 19 No. 03 (2024): Jurnal Teknik Informatika
Publisher : Universitas Sam Ratulangi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35793/jti.v19i3.53680

Abstract

This research focuses on developing a website-based Internet of Things (IoT) platform specifically for Sam Ratulangi University. The main objective is to design and develop a real-time IoT platform that can be accessed by students and university lecturers, with a limited scope of use for the Sam Ratulangi University academic community. This research identifies the need for developing a website-based IoT platform and effective ways to achieve real-time communication. The technology used includes Websocket for real-time data communication, a combination of REST API and WebSocket for communication efficiency, as well as the use of SQL and NoSQL databases tailored to the type of data to increase application performance. The results of this research show that the IoT platform developed runs smoothly and efficiently, with good data communication between devices and clients. The application of the selected technologies and methods has proven effective in supporting dynamic interactions between IoT devices and systems, as well as in achieving application development goals quickly and flexibly. This research contributes to enriching educational and research resources at universities, especially in the field of IoT technology.
Wireless Residential Electric Controller Using Arduino Uno and Bluetooth Module HC-05 Nelwan, Allan; Manembu, Pinrolinvic; Wauran, Alfrets; Manoppo, Franky; Mamahit, Calvin
JURNAL EDUNITRO Jurnal Pendidikan Teknik Elektro Vol. 3 No. 1 (2023): April Issue
Publisher : Department of Electrical Engineering Education, Faculty of Engineering, State University of Manado

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53682/edunitro.v3i1.5408

Abstract

This research aims to design electrical installations in residential homes that apply Internet of Things (IoT) technology. An Arduino Uno mini system is the controller whose interface uses the HC-05 Bluetooth module. At the same time, the control uses a cellphone with the Android operating system. The design is based on a research development model, but it is not fully standardized by development research because there are some limitations to the problem. The focus is only on tool design, namely planning, manufacturing, and testing the resulting tool or device. The design results obtained an electrical installation control device with an Android phone. The device is capable of connecting and disconnecting load points remotely and automatically. The control distance is approximately 20 meters according to the Bluetooth specifications used.
Co-Authors Abdul Murzi Pelupessy, Abdul Murzi Angreine Kewo, Angreine Arthur M. Rumagit Diamanis, Axellindo Feisy D. Kambey Franky Manoppo, Franky Ivan Tumimomor, Ivan Jane I. Litouw Jane Litouw, Jane Kojansow, Charles William Lapian, Andre K.E Mangeber, Aldy Mangindaan, Glanny Mangindaan, Glanny M. Ch. Nelwan, Allan Nora E. Christian, Nora E. Octavian, Bea Y. Oktavian A. Lantang Ontowirjo, Fauziah Y.Q. Poekoel , Vecky C. Poekoel, Riecky S.S. Reynold F. Robot REYNOLD F. ROBOT Riecky Poekoel Runtuwene, David Christo Ryan L. Singgeta Samuel Pojoh, Samuel Samuel Y. Dimpudus, Samuel Y. Saroinsong, Hardy S. Sherwin R.U.A Sompie Sherwin R.U.A. Sompie Sindua, Christian Daniel Singgeta, Ryan Laksmana Steven Ray Sentinuwo Vecky C. Poekoel Vecky C. Poekoel Vecky Poekoel, Vecky Wauran, Alfrets Yaulie Deo Y. Rindengan Yonna Kaburuan, Yonna