Pengenalan Sistem Pertanian Pintar untuk Kader-Kader Pemberdayaan Kesejahteraan Keluarga
DOI:
https://doi.org/10.55123/abdikan.v5i1.7033Kata Kunci:
Smart Agriculture, Automatic, Food, QualityAbstrak
The activities of the Family Welfare Empowerment cadres in Cideng Village in growing vegetables and fruits have been carried out routinely and manually so that it requires considerable energy and time. The smart farming system is one solution in meeting the community's food needs that can be done independently and automatically. In order to participate in increasing public knowledge, the Electrical Engineering and Mechanical Engineering Study Program, Faculty of Industrial Technology, Trisakti University in the 2024-2025 academic year has implemented a Community Service program in Cideng Village, Central Jakarta to introduce knowledge about smart farming systems that use digital technology that can improve the quality and quantity of sustainable agricultural yields. Participants who took part in the extension were cadres of the Family Welfare Empowerment Driving Team. The method used was counceling. The result of this community service activity was an increase in knowledge about smart farming systems from 50% to 76% based on questionnaires distributed before and after the extension. This program needs to be continued to be implemented with mentoring from lecturers and students as a sustainable community service program.
Unduhan
Referensi
Budiharto, W. (2019). Inovasi Digital di Industri Smart Farming: Konsep dan Implementasi. Prosiding Seminar Nasional Lahan Suboptimal 2019, 31–37. https://conference.unsri.ac.id/index. php/lahansuboptimal/article/view/1669
Cisse, A., Diallo, O., Ndoye, E. H. M., & Sy, M. (2024). A smart farming management system based on iot technologies for sustainable agriculture. Advances in Science, Technology and Engineering Systems Journal, 9(1), 1–8. https://dx.doi.org/10.25046/aj090101.
Erika Wulandari, E., Kurniati, E. (2025). Karakteristik Pertanian Di Indonesia: Antara Tradisi, Tantangan Struktural, Dan Peluang Transformasi. JURNAL EKONOMI PERTANIAN DAN AGRIBISNIS (JUEPA), 2(1), 58-72. .
Firdaus, A. M. (2019, October 11). Revolusi Industri 4.0 Mampu Tingkatkan Produktivitas Pertanian [Portal Berita]. Ayo Tasik. https://www.ayotasik.com/nasional/pr-33848342/Revolusi-Industri-40-Mampu-Tingkatkan-Produktivitas-Pertanian?_gl=1*5ibjgc*_ga*Njk2MjY3NDM0LjE3NjQ2NTM5MjM.*_ga_2BZPHNQNTD*czE3NjQ2NTM5MjMkbzEkZzEkdDE3NjQ2NTM5ODckajU3JGwwJGg2MzAyNDI5MDI.
Gyamfi, E. K., ElSayed, Z., Kropczynski, J., Yakubu, M. A., & Elsayed, N. (2024). Agricultural 4.0 Leveraging on Technological Solutions: Study for Smart Farming Sector. 2024 IEEE 3rd International Conference on Computing and Machine Intelligence (ICMI), 1–9.
Javaid, M., Haleem, A., Singh, R. P., & Suman, R. (2022). Enhancing smart farming through the applications of Agriculture 4.0 technologies. International Journal of Intelligent Networks, 3, 150–164. https://doi.org/10.1016/j.ijin.2022.09.004
John, S., & Rose, P. J. A. L. (2024). Intelligent Robots and Drones for Precision Agriculture. Springer Nature.
Juliansyah, A., Mulada, D. A., & Purmadi, A. (2025). Pendampingan Pengenalan IoT dalam Pertanian Pintar: Strategi Meningkatkan Produktivitas Tani di Desa Jurit Kabupaten Lombok Timur. Jurnal Pengabdian UNDIKMA, 6(1), 47–55. https://doi.org/DOI: https://doi.org/10.33394/jpu.v6i1.13067
Kecamatan Gambir, K. G. (2025). Kecamatan Gambir. Kecamatan Gambir.
Khairani, I., & Prawiroredjo, K. (2025). Rancang Bangun Sistem Hidroponik Otomatis Berbasis Internet of Things. Jurnal Nasional Teknik Elektro dan Teknologi Informasi. 14(1): ID-1-ID-8.
Mentsiev, A., Aygumov, T., & Abdurashidov, S. (2023). Using internet of things technologies to optimize agriculture and increase productivity. E3S Web of Conf., 462, 01037. https://doi.org/10.1051/e3sconf/202346201037
Natalia, Y., & Sutabri, T. (2024). Rancangan Sistem Pemantauan Lingkungan Berbasis IoT untuk Pertanian Padi. Switch : Jurnal Sains Dan Teknologi Informasi, 2(6), 58–67. https://doi.org/10.62951/switch.v2i6.282.
Purwanto, E., Rahmah, A., Rohmatunisa, R. N., Farisal, U., Oktarina S. (2025). , Komunikasi Digital dalam Pemberdayaan Kelompok Wanita Tani (KWT) melalui Teknologi Smart Farming. CONVERSE: Journal Communication Science, 1(4), 1-14.
Sekaran, K., Meqdad, M.N., Kumar, P., Rajan, S., Kadry, S. (2020). Smart agriculture management system using internet of things. Telkomnika, 18(3), 1275-1284. DOI: 10.12928/TELKOMNIKA.v18i3.14029.
Sharma, A., Singh, S. K., Arya, V., Kumar, S., & Thakur, R. (2024). IoT-enabled smart farming with Industry 5.0. Journal of High Speed Networks, 30(3), 477-496. https://doi.org/10.3233/JHS-230258.
Udisha, O., & Philomina, I. G. A. (2024). Bridging the Digital Divide: Empowering Rural Women Farmers Through Mobile Technology in Kerala. Sustainability, 16(21), 9188. https://doi.org/10.3390/.
Visconti, P., de Fazio, R., Velázquez, R., Del-Valle-Soto, C., & Giannoccaro, N. I. (2020). Development of sensors-based agri-food traceability system remotely managed by a software platform for optimized farm management. Sensors, 20(13), 3632. https://doi.org/doi: 10.3390/s20133632.
Zhang, L., Dabipi, I. K., & Brown, W. (2018). Internet of Things Applications for Agriculture. In Internet of Things Applications for Agriculture (pp. 507–528). John Wiley & Sons, Ltd.
Unduhan
Diterbitkan
Cara Mengutip
Terbitan
Bagian
Lisensi
Hak Cipta (c) 2026 Kiki Prawiroredjo, Engelin Shintadewi Julian, Muhammad Doris; Sentot Novianto
Artikel ini berlisensi Creative Commons Attribution 4.0 International License.
