Strategi Pengembangan Bisnis Agroteknologi Agri Edu Pariwisata Pertanian Kabupaten Sumedang

Authors

  • Dicky Kurniawan Universitas Komputer Indonesia
  • Eddy Soeryanto Soegoto Universitas Komputer Indonesia
  • Rahma Wahdiniwaty Universitas Komputer Indonesia
  • Agus Mulyana Universitas Komputer Indonesia

DOI:

https://doi.org/10.55606/jumbiku.v6i1.6611

Keywords:

Harvesting, Post Harvesting, Planting, Pre-Planting, SDGs

Abstract

Indonesia, as an agricultural country ranked 51st out of 78 countries in the 2021 Food Sustainability Index (FSI) and with a low performance in the Sustainable Agriculture category (ranked 71st), faces serious challenges in global food security due to the lack of accurate agricultural land data. This problem hinders efforts to achieve the Sustainable Development Goals (SDGs), particularly SDG 2 on zero hunger for food security and nutrition, and SDG 12 on sustainable consumption and production in the efficient use of resources. To overcome this, the Precision Agriculture Ecosystem Map has emerged as an innovative solution, integrating IoT devices, Edge Computing, and Artificial Intelligence (AI) for GIS-based plantation mapping. This system provides farmers with accurate information on land characteristics, crop requirements, planting season determination, and recommendations for fertilization and irrigation, and even predicts the risk of crop failure. This innovation is expected to increase agricultural productivity in a sustainable manner, optimize resource use, reduce waste, and significantly contribute to national food security and farmer welfare.

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References

Al, R., Pulungan, F., Thahar, S. F., Mardani, S. I., & Ramadhan, S. M. (2025). Model-based approach for clustering regencies/cities in the Land of Papua based on food security indicators. 30(1), 19-30. https://doi.org/10.18343/jipi.30.1.19

Berliana, J. N., & Hariono, B. (2024). Implementation of a traceability system for canned fish products using the FMECA approach. 13(3), 863-872. https://doi.org/10.23960/jtep-l.v13i3.863-872

Desa, D. I., Kampung, T., & Kabupaten, B. (2025). Agripreneur: Jurnal pertanian agribisnis, 14(1), 23-33.

Ekonomi, J., & Indonesia, K. (2025). Negara Indonesia yaitu "Bhinneka Tunggal Ika" yang memiliki arti berbeda-beda tetapi tetap terletak di Pulau Jawa bagian paling barat. 3(4), 274-285.

Hendra, A., Plant, M., Tectona, T., Small, F., & Private, S. (2011). Pertumbuhan tanaman pokok jati (Tectona grandis Linn F.) pada hutan rakyat di Kecamatan Conggeang, Kabupaten Sumedang. 02(03), 130-135.

Jabbar, F. A., & Purnaningsih, N. (2022). Diseminasi instalasi fertigasi (irigasi tetes) guna menghemat penggunaan air untuk pertanian di Kelurahan Beji. Jurnal Pusat Inovasi Masyarakat (PIM), 4(2), 90-97. https://doi.org/10.29244/jpim.4.2.90-97

Kebutuhan Pupuk Kalium, P., Salju Amban Waidema, G., Papua Barat, M., Susila, A. D., Situmorang, R., Wasgito Purnomo, dan D., Pengkajian Teknologi Pertanian Papua Barat, B., Agronomi dan Hortikultura, D., Pertanian, F., & Pertanian Bogor, I. (2009). Penentuan kebutuhan pupuk kalium untuk budidaya tomat menggunakan irigasi tetes dan mulsa polyethylene. J. Agron. Indonesia, 37(2), 115-122.

Mucharam, I., Rustiadi, E., Fauzi, A., & Harianto. (2022). Signifikansi pengembangan indikator pertanian berkelanjutan untuk mengevaluasi kinerja pembangunan pertanian Indonesia. RISALAH KEBIJAKAN PERTANIAN DAN LINGKUNGAN Rumusan Kajian Strategis Bidang Pertanian Dan Lingkungan, 9(2), 61-81. https://doi.org/10.29244/jkebijakan.v9i2.28038

Mulyana, A., Wahjuni, S., Djatna, T., Sukoco, H., Rahmawan, H., & Nidya Neyman, S. (2021). Internet of Things (IoT) device management in rural areas to support precision agriculture. IOP Conference Series: Earth and Environmental Science, 1012(1). https://doi.org/10.1088/1755-1315/1012/1/012083

Nilai, A., Dan, T., Produk, P., & Bandeng, U. (2025). Agripreneur: Jurnal pertanian agribisnis PRESTO SHANUM 86 KIARACONDONG, BANDUNG meningkatkan taraf hidup masyarakat. 14(1), 51-60.

Nugroho, E. P., Djatna, T., Sitanggang, I. S., & Hermadi, I. (2025). Internet of Things-drone trajectory planning model with edge computing based on long-range payload in rural areas. Bulletin of Electrical Engineering and Informatics, 14(2), 1251-1262. https://doi.org/10.11591/eei.v14i2.8776

Padi, P., & Indonesia, D. I. (2024). Teknologi pertanian presisi untuk meningkatkan efisiensi produksi padi di Indonesia. 5(1), 720-727.

Patria, I., Pembangunan, P., Bogor, P., & Pertanian, K. (2025). Transformasi pertanian presisi berbasis digital di Indonesia: Tinjauan sistematis peluang dan tantangan. 4(6), 1462-1477. https://doi.org/10.55123/insologi.v4i6.6319

Pendidikan, J., & Pertanian, T. (2023a). No title. 9, 11-20.

Pendidikan, J., & Pertanian, T. (2023b). No title. 9, 1-10.

Soegoto, E. S., Soegoto, H., Soegoto, D. S., & Soegoto, S. W. (2022). A systematic literature review of Internet of Things for higher education: Architecture and implementation. Indonesian Journal of Science & Technology, 7, 511-528. https://doi.org/10.17509/ijost.v7i3.51464

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Published

2026-01-19

How to Cite

Dicky Kurniawan, Eddy Soeryanto Soegoto, Rahma Wahdiniwaty, & Agus Mulyana. (2026). Strategi Pengembangan Bisnis Agroteknologi Agri Edu Pariwisata Pertanian Kabupaten Sumedang . Jurnal Manajemen, Bisnis Dan Kewirausahaan, 6(1), 212–222. https://doi.org/10.55606/jumbiku.v6i1.6611

Issue

Vol. 6 No. 1 (2026): April: Jurnal Manajemen, Bisnis dan Kewirausahaan (JUMBIKU)

Section

Articles

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