Monitoring kualitas tanah lahan pertanian Desa Sidorejo menggunakan sensor pH tanah dan Internet of Things

https://doi.org/10.35912/jnm.v2i1.1387
Published: Oct 5, 2022

Abstract:

Purpose: Assisting farmers in monitoring remotely the quality of agricultural land for rice crops in Sidorejo Village, Bantul Regency, Yogyakarta. As well as farmers and the agriculture office can determine the composition of the fertilizer given to suit their rice plants.

Method: The installed soil pH sensor will read the soil pH value for rice plants in the form of voltage, then the data from the voltage is processed by Arduino Nano and sent to the internet cloud using the SIM800L module.

Result: With a soil pH value of 2.79, it will produce 800 kg of grain from an area of ??600 m2, while a soil pH value of 3.41 will also produce 500-600 kg of grain from an area of ??350 m2.

Conclusion: The application of a soil quality monitoring system for rice plants in Siderejo Village, Bantul Regency, Yogyakarta has been successfully implemented with an average control speed of 5,11-6,8 second, and the data can be accessed by farmers using mobile phones.

Keywords:
1. soil quality
2. soil pH sensor
3. internet of things
Authors:
1 . Gatot Santoso
2 . Slamet Hani
3 . Uhing Dwi Putra
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How to Cite
Santoso, G., Hani, S., & Putra, U. D. (2022). Monitoring kualitas tanah lahan pertanian Desa Sidorejo menggunakan sensor pH tanah dan Internet of Things . Jurnal Nusantara Mengabdi, 2(1), 1–10. https://doi.org/10.35912/jnm.v2i1.1387
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Issue & Section
Vol. 2 No. 1 (2022): Oktober
Articles
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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

References

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  1. Ajao, L., Agajo, J., Kolo, J., Maliki, D., & Adegboye, M. (2017). Wireless sensor networks based-internet of thing for agro-climatic parameters monitoring and real-time data acquisition. Journal of Asian Scientific Research, 7(6), 240-252.
  2. Andi, K., Dharma, F., & Gamayuni, R. R. (2021). Pelatihan Peningkatan Kualitas Produk dan Pemasaran Usaha Bubuk Biji Salak di Desa Sungai Langka, Kabupaten Pesawaran. Yumary: Jurnal Pengabdian kepada Masyarakat, 1(4), 203-209.
  3. Assa, F. B., Rumagit, A. M., & Najoan, M. E. (2022). Perancangan monitoring sistem hidroponik berbasis iot. Jurnal Teknik Informatika, 17(1), 129-138.
  4. Bangsawan, S., Mahrinasari, M., Ahadiat, A., Ribhan, R., Kesumah, F. S. D., & Febrian, A. (2021). Pengembangan Desa Wisata melalui Pelatihan dan Pembinaan. Yumary: Jurnal Pengabdian kepada Masyarakat, 2(2), 79-90.
  5. Gunawan, R., Andhika, T., & Hibatulloh, F. (2019). Monitoring system for soil moisture, temperature, pH and automatic watering of tomato plants based on internet of things. Telekontran: Jurnal Ilmiah Telekomunikasi, Kendali Dan Elektronika Terapan, 7(1), 66-78.
  6. Lokhande, K., Bhongade, M., Meshram, N., Khope, N., Kothe, N., Seganwar, P., . . . Dhole, P. (2019). IOT based Automatic Farm Monitoring. vol, 6, 332-337.
  7. Londhe, G., & Patil, S. A. (2019). Soil Monitoring And Irrigation System By Using Arm Processor. International Research Journal of Engineering and Technology (IRJET) Volume, 6, 535-538.
  8. Maulana, A., Novalia, N., & Wijaya, W. A. (2021). Penguatan Kapasitas Ibu Rumah Tangga Melalui Pemanfaatan Tanaman Obat Keluarga di Desa Kerinjing Kecamatan Tanjung Raja Kabupaten Ogan Ilir. Yumary: Jurnal Pengabdian kepada Masyarakat, 2(1), 1-8.
  9. Mikkael, R. H., Touana, H., & Takrim, M. (2020). PkM pelatihan peningkatan usaha mikro dalam mewujudkan smart business melalui smartphone di masa pandemi Covid-19. Yumary: Jurnal Pengabdian kepada Masyarakat, 1(1), 35-40.
  10. Parameswaran, G., & Sivaprasath, K. (2016). Arduino based smart drip irrigation system using Internet of Things. Int. J. Eng. Sci, 5518(5), 5518-5521.
  11. Pardhi, P., Trimbakkar, P., Bankar, S., & Shingare, D. Indoor farming Using IoT: vol.
  12. Pertiwi, A., Kristianti, V. E., Jatnita, I., & Daryanto, A. (2021). SISTEM OTOMATISASI DRIP IRIGASI DAN MONITORING PERTUMBUHAN TANAMAN CABAI BERBASIS INTERNET OF THINGS. Sebatik, 25(2), 739-747.
  13. Priya, P. L. V., Harshith, N. S., & Ramesh, N. (2018). Smart agriculture monitoring system using IoT. Int. J. Eng. Technol.(UAE), 7, 308-311.
  14. Rahman, S. S. B., Ahmed, I., & Ahmed, F. (2020). An IoT based model of a nitrogen detection system for soil samples. Paper presented at the Proceedings of the international conference on computing advancements.
  15. Ridwan, T. (2020). Pemberdayaan Ekonomi Rumah Tangga Yang Terdampak Pandemi Covid-19 Melalui Usaha Mikro dan Kecil di Kelurahan Tukmudal. Jurnal Indonesia Sosial Teknologi, 1(5), 438-448.
  16. Sakthipriya, N. (2014). An effective method for crop monitoring using wireless sensor network. Middle-East Journal of Scientific Research, 20(9), 1127-1132.
  17. Saydi, R. (2021). Monitoring Curah Hujan dan Kelengasan Tanah Lahan Pertanian Menggunakan Sensor Berbasis Internet of Things (IoT) sebagai Dasar Pertanian Presisi. Jurnal Ilmiah Teknologi Pertanian Agrotechno, 6(1), 25-31.
  18. Sivasankari, A., & Gandhimathi, S. (2014). Wireless sensor based crop monitoring system for agriculture using Wi-Fi network dissertation. International Journal of Computer Science and Information Technology Research, 2(3), 293-303.
  19. Sowmiya, E., & Sivaranjani, S. (2017). Smart system monitoring on soil using internet of things (IoT). International Research Journal of Engineering and Technology (IRJET), 4(2), 1070.
  20. sussi, s., Sofia, Nurwulan, Dede, Rika, Muhammad, & Amri. (2022). Agrotech: Penyiraman Tanaman Dan Pemantauan Kadar Air Dalam Tanah Berbasis Internet Of Things. JUPITER (Jurnal Penelitian Ilmu dan Teknologi Komputer), 14(1), 45 - 51. doi:10.5281./4575/5.jupiter.2022.04
  21. Syafiqoh, U., Sunardi, S., & Yudhana, A. (2018). Pengembangan Wireless Sensor Network Berbasis Internet of Things untuk Sistem Pemantauan Kualitas Air dan Tanah Pertanian. Jurnal Informatika: Jurnal Pengembangan IT, 3(2), 285-289.