An environment monitoring system for a rice production model adaptive to climate change in the Mekong Delta of Viet Nam

Truong Minh Thai * , Nguyen Dai Nghia , Trinh Minh Qui , Nguyen Khoi Nghia , Nguyen Huu Thien , Huynh Quy Khang , Luu Ca and Vo Huynh Tram

* Corresponding author (tmthai@ctu.edu.vn)

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Received: 30 Jul 2023
Revised: 17 Sep 2023
Accepted: 29 Sep 2023
Published: 16 Oct 2023
DOI: 10.22144/ctujoisd.2023.044
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Truong, M. T., Nguyen, D. N., Trinh, M. Q., Nguyen, K. N., Nguyen, H. T., Huynh, Q. K., Luu, C., & Vo, H. T. (2023). An environment monitoring system for a rice production model adaptive to climate change in the Mekong Delta of Viet Nam. CTU Journal of Innovation and Sustainable Development , 15(Special issue: ISDS), 134-141. https://doi.org/10.22144/ctujoisd.2023.044
Issue
Vol. 15 No. Special issue: ISDS (2023)
Section
Intelligent Systems and Data Science (ISDS 2023)

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Abstract

This article presents an environment monitoring model for agricultural production applied to farmers in the Mekong Delta, Viet Nam. The proposed model's special feature is a system combining techniques such as IoT, agent-based, sensor networks, and data warehouses. Successfully deploying the model in monitoring the water level, and the environmental factors of the rice soil such as NPK, pH, EC, temperature, and soil moisture not only aids managers and farmers monitor environmental quality indicators in real time, but also experts to analyze data, give warnings and appropriate response solutions in agricultural production according to the pivot strategy towards Agriculture 4.0 proposed by the Minister of the Ministry of Agriculture and Rural Development of Viet Nam.

Keywords: IoT, Agent-Based, Sensor Networks, Data Warehouse

Article Details

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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

References

Bouman, B. A. M., & Tuong, T. P. (2001). Field water management to save water and increase its productivity in irrigated lowland rice. Agricultural Water Management, 49(1), 11–30. https://doi.org/10.1016/S0378-3774(00)00128-1

Can, D. N. (2002). Development of Agricultural Systems in the Mekong Delta of Vietnam: Current rice cultivation and problems involved. The International Workshop on GMS Water Environment Held at Asian Institute of Technology, 23.

Konishi, T., Omatu, S., & Suga, Y. (2007). Extraction of rice-planted area using a self-organizing feature map. Artificial Life and Robotics, 11, 215–218.

Lan Phuong, T., Minh Hai, T., Kim Chung, N., & Dang Kieu Nhan. (2012). Effects of biogro fertilizer and water-saving irrigation methods on productivity and greenhouse gas emissions in rice field.

MARD. (2011). Rice production evaluation for 2010 and work-plan for 2011 for the Southern Vietnam. Agricultural Publishing House.

Mien, N. T. (2022). New Normal in the Mekong Delta. Https://Th.Boell.Org/En/2022/02/22/.

Nguyen, C. T., Huynh, V. T., Huynh, C. K., Nguyen, H. C., Tran, S. N., Taro, I., & Nguyen, V. C. (2022). Rice farming techniques to save water, reduce greenhousegas emissions and adapt to climate change. Can Tho University Journal of Science, 58(SDMD), 231–238. https://doi.org/10.22144/ctu.jvn.2022.209

Nguyen, M. K., Nguyen, C. M., Phan, V. M., Nguyen, N. T. Q. H., & Phan, P. T. S. (2021). Application of constructed wetlands technology with common grasses to remove pollutants from surface wate. Can Tho University Journal of Science, 57(5), 32–43. https://doi.org/10.22144/ctu.jvn.2021.139

Rainer, D. (2023). Mekong Delta climate resilient agriculture activity design.

Shaji, H., Chandran, V., & Mathew, L. (2021). Organic fertilizers as a route to controlled release of nutrients. In Controlled Release Fertilizers for Sustainable Agriculture (pp. 231–245). Elsevier. https://doi.org/10.1016/B978-0-12-819555-0.00013-3

Tay, J. B. J., Chua, X., Ang, C., Goh, K. K. T., Subramanian, G. S., Tan, S. Y., Lin, E. M. J., Wu, W.-Y., & Lim, K. (2022). Continuous low-temperature spray drying approach for efficient production of high quality native rice starch. Drying Technology, 40(9), 1758–1773.

Trung, N. H. (2006). Comparing land use planning approaches in the Mekong Delta, Vietnam. Wageningen University and Research.

Truong, M. T., Amblard, F., Gaudou, B., Truong, M. T., Amblard, F., Gaudou, B., & Frame-, C. S. C. A. (2016). CFBM - A Framework for Data Driven Approach in Agent-Based Modeling and Simulation. 2nd EAI International Conference on Nature of Computation and Communication Springer, Cham, 264–275.

Truong, T. M., Phan, C. H., Van Tran, H., Duong, L. N., Van Nguyen, L., & Ha, T. T. (2020). To Develop a Water Quality Monitoring System for Aquaculture Areas Based on Agent Model. Advances in Intelligent Systems and Computing, 1027(January), 47–58. https://doi.org/10.1007/978-981-32-9343-4_5

Van Toan, P., Duc Minh, N., & Van Thong, D. (2019). Organic Fertilizer Production and Application in Vietnam. In Organic Fertilizers - History, Production and Applications. IntechOpen. https://doi.org/10.5772/intechopen.87211

Vo, T. B. T., Wassmann, R., Tirol-Padre, A., Cao, V. P., MacDonald, B., Espaldon, M. V. O., & Sander, B. O. (2018). Methane emission from rice cultivation in different agro-ecological zones of the Mekong river delta: seasonal patterns and emission factors for baseline water management. Soil Science and Plant Nutrition, 64(1), 47–58.