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All Journal SMARTICS Journal RESEARCH : Computer, Information System & Technology Management Antivirus : Jurnal Ilmiah Teknik Informatika Vocatech : Vocational Education and Technology Journal Generation Journal Jurnal ABDINUS : Jurnal Pengabdian Nusantara JAMI: Jurnal Ahli Muda Indonesia Jurnal Ekonomi dan Teknik Informatika Kontribusi: Jurnal Penelitian dan Pengabdian Kepada Masyarakat International Journal of Electronics and Communications Systems Archive: Jurnal Pengabdian Kepada Masyarakat
Nalendra, Adimas Ketut
Akademi Komunitas Negeri Putra Sang Fajar Blitar
Religion Agriculture, Biological Sciences & Forestry Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Law, Crime, Criminology & Criminal Justice Mechanical Engineering Public Health Social Sciences

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PIM Sistem Kontrol Suhu dan Gas Amonia pada Kandang Ayam berbasis Internet of Things di Mitra CV. Bintang Timur Farm Nalendra, Adimas Ketut; Mujiono, M; Widigdyo, Anang
Jurnal ABDINUS : Jurnal Pengabdian Nusantara Vol 6 No 3 (2022): Volume 6 Nomor 3 Tahun 2022
Publisher : Universitas Nusantara PGRI Kediri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29407/ja.v6i3.18484

Abstract

CV Bintang Timur Farm is a company in the field of chicken farming which has a partner of approximately 100 farmers. Breeders who partner with CV. Bintang Timur Farm is usually a small scale farmer. The problems that occur to farmers, especially small-scale farmers, are monitoring the temperature of the cage and managing the cleanliness of the cage. The solution that can be applied to these problems is the application of science and technology to the community of temperature and gas control systems in chicken coops based on the Internet of Things. The use of IoT technology will help farmers to be more effective and efficient in controlling the temperature and gas in the chicken coop and can be a reference for farmers to determine the right time for the cage to be cleaned. The method of implementing this activity uses the Participatory Learning and Action (PLA) method which involves partners in all of these service activities. While this service activity consists of a situation analysis FGD, making tool designs, assisting the use of tools, and evaluating program sustainability. Therefore, it is hoped that farmers can support and use IoT technology so that later they can fulfill market share. The output target resulting from this activity is to improve the skills of farmers in cultivation and management of cage hygiene by processing chicken manure into organic fertilizer, increasing chicken farm production by 5%.
Implementasi Sistem Presensi Berbasis Web Terintegrasi Multi-Device Fingerprint M Mujiono, M Mujiono; Fu’ad, M. Nur; Nalendra, Adimas Ketut; Utomo, Prabowo Budi; Wahyudi, Dona; Kholila, Ni'ma; Tambunan, Rika Wahyuni
Kontribusi: Jurnal Penelitian dan Pengabdian Kepada Masyarakat Vol. 6 No. 2 (2026): Mei 2026
Publisher : Cipta Media Harmoni

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53624/kontribusi.v6i2.828

Abstract

Latar Belakang: Manajemen kehadiran pegawai adalah aspek penting dalam organisasi untuk memastikan kedisiplinan dan akurasi data kehadiran. Namun, banyak instansi masih menggunakan sistem absensi manual atau perangkat fingerprint standalone yang kurang efisien, yang rentan terhadap kecurangan seperti titip absen dan memerlukan pengolahan data manual Tujuan: Tujuan dari pengabdian ini adalah mengembangkan sistem absensi yang lebih akurat, efisien, dan terintegrasi Metode: Mengembangkan sistem berbasis website yang terhubung dengan beberapa mesin fingerprint sekaligus, serta melakukan pendampingan dalam implementasinya. Hasil: sistem berbasis web ini memungkinkan pencatatan kehadiran secara real-time dan dapat diakses dari berbagai lokasi, sementara koneksi beberapa mesin fingerprint memungkinkan penggunaan di berbagai titik absensi, sehingga memudahkan pegawai dalam melakukan rekam kehadiran. Dengan sistem ini, pengelolaan data kehadiran menjadi lebih otomatis, mengurangi kesalahan manusia, dan meningkatkan transparansi. Kesimpulan: Sistem ini diharapkan dapat meningkatkan efektivitas dan efisiensi dalam memantau serta pengelolaan kehadiran pegawai, meminimalisir penyalahgunaan, dan mempermudah pemantauan data real-time untuk pengambilan keputusan.
Enhancing Agricultural Efficiency Through IoT-Based Nutrient Control And Monitoring System For Horticultural Plants Nalendra, Adimas Ketut; Waspada, Heri Priya
SMARTICS Journal Vol 11 No 2 (2025): SMARTICS Journal (Oktober 2025)
Publisher : Universitas PGRI Kanjuruhan Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21067/smartics.v11i2.13727

Abstract

There is an increasing need for efficient and effective systems to monitor and control the nutrition of horticultural crops using the Internet of Things (IoT). This research aims to develop a system that can monitor and control the nutrition of horticultural crops with high accuracy using IoT-based sensors and actuators. The research method used is Rapid Application Development (RAD), which starts with listening to users to obtain data on problem needs, building systems by making mockups, and rapidly designing devices according to user needs. The developed IoT system was successfully implemented in the natural environment with Android-based software development. The monitoring data from the database shows that this IoT tool works well during cultivation, and there is no time lag in data retrieval. Monitored data includes pH, water temperature, air temperature, EC, and data recording time. IoT tools for nutrient control and monitoring can also help in irrigation and proper maintenance of plant nutrient needs. The developed IoT system can be used as a solution to optimize nutrition in horticultural crops. This system can control and monitor nutrients in plants using parameters such as water temperature, EC, humidity, air temperature, and water temperature measured by sensors. IoT tools for nutrient control and monitoring can also help maintain plant nutrient requirements through proper irrigation. Therefore, the development and implementation of IoT systems on a larger scale is recommended to increase efficiency and effectiveness in agriculture.
Co-Authors Adiguna Sasama Wahyu Utama Adimas Ketut Aditya Wirawantoro Putra Akhsani, Rafika Andi Sunyoto Candrapuspa, Elok Hastari Dimas Hafidh Fauzi Dona Wahyudi Elok Hastari Elok Hastari C Erfan Rohadi Fu’ad, M. Nur Hafid Dian Nurfaujan Ahat Heni Puji Lestari Heri Priya Waspada Ismanto Kholila, Ni'ma Kristinanti Charisma M Mujiono M Mujiono M Mujiono, M Mujiono M Nur Fu'ad M. Mujiono M. Nur Fuad M. Nur Fu’ad Mochamad Bilal, Mochamad Muhammad Ivan Wahyudi Mujiono, M Mujiono, M. Niswatul Karromah Normawati, Rani Arifah Prabowo Budi Utomo Rika Wahyuni Tambunan Rosa Andrie Asmara Setiani, Irsa Yulia Wahyudi, Dona