Web of Thing Application for Monitoring Precision Agriculture Using Wireless Sensor Network
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Abstract
Wireless Sensor Network (WSN) is a technology which can help humans solve problems in daily life for monitoring the environment. This can be done to help farmers in monitoring and making decisions for watering plants. In this study, temperature, humidity and soil moisture sensors were used to help farmers monitor web-based precision agriculture, and the system which be built could make a decision to automatically water plants based on soil conditions. The results of measuring precision agriculture from the sensor node will be sent to the gateway using Zigbee 802.15.4. The data will be stored in the MySQL database provided by the gateway. Then it will be synchronized to the cloud using IoT technology, so users can access it in real time by using web-based application. From the system which is developed, it really helps farmers to complete their work and make innovation in the digital era.
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How to Cite
[1]
N. Fahmi, E. Prayitno, and S. Fitriani, “Web of Thing Application for Monitoring Precision Agriculture Using Wireless Sensor Network”, INFOTEL, vol. 11, no. 1, pp. 22-28, Mar. 2019.
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References
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[2] N Fahmi, S Huda, E Prayitno, MUH Al Rasyid, MC Roziqin, and M. Unggul Pamenang, “A prototype of monitoring precision agriculture system based on WSN”, International Seminar on Intelligent Technology and Its Applications (ISITIA), Surabaya, pp. 323-328, 2017.
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[10] N. Fahmi, Rosmida, and E. Prayitno, “Online QoS Modelling Untuk Cloud Menggunakan Teknologi WSN dan IoT Untuk Monitoring CO2 Secara Real Time”, Jurnal Teknologi Informasi dan Terapan, Vol. 5, No. 2, 2019.
[11] M. J. O’Grady and M.P. O’Hare, “Modelling the smart farm”, Information Processing in Agriculture, Vol 4, No. 3, pp. 179-187, 2017
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[13] M. A. Zamora-Izquirdo, J. Santa, J. A. Martinez, V. Martinez, A. F. Skarmeta, “Smart farming IoT platform based on edge and cloud computing”, Biosystem Engineering, Vol. 177, pp. 4-17
[14] Tse-Chuan. Hsu, H. Yang, Yeh-Ching. Chung, and Chng-Hsien Hsu, “A Creative IoT agriculture platform for cloud fog computing”, Sustainable Computing: Informatics and Systems, 2018
[15] K. Gunasekera, A. N. Borreo, F. Vasuian, and K. P. Bryceson, “Experiences in building an IoT infrastructure for agriculture education”, Procedia Computer Science, Vol. 135, pp. 155-162, 2018.
[2] N Fahmi, S Huda, E Prayitno, MUH Al Rasyid, MC Roziqin, and M. Unggul Pamenang, “A prototype of monitoring precision agriculture system based on WSN”, International Seminar on Intelligent Technology and Its Applications (ISITIA), Surabaya, pp. 323-328, 2017.
[3] N Fahmi, S Huda, A Sudarsono, and MUH Al Rasyid, “Fuzzy Logic for an Implementation Environment Health Monitoring System Based on Wireless Sensor Network”, Journal of Telecommunication, Electronic and Computer Engineering (JTEC), Vol. 9, No. 2-4, pp.119-122, 2017
[4] M. Ammar, G. Russello, and B. Crispo, “Internet of Things: A survey on the security of IoT frameworks”, Journal of Information Security and Applications, ScienceDirect, Vol.38, pp. 8-27, 2018
[5] T. Georgieva, N. Paskova, B. Gaazi, G. Todorov, and P. Daskalov, “Design of Wireless sensor network for monitoring of soil quality parameters”, International Conference Agriculture for Life, Life for Agriculture, ScienceDirect, Vol. 10, pp. 431-437, 2016
[6] G. Sahita, Dr. N. Balaji, Dr. C. D. Naidu, and S. Abinaya, “Designing a Wireless Sensor Network for Precision Agriculture using Zigbee”, International Advance Computing Conference, pp. 287-291, 2017
[7] D. F. G. Junco, M. S. C. Forero, D. F. D. Caro, and I. A. R. Ruge, “Agrometeorological monitoring station based microcontroller and Bluetooth communication”, Colombian Conference on Automatic Control (CCAC), Manizales, Colombia, 2015.
[8] O. A. Postulate, “Smart Sensors Network for Air Quality Monitoring Applications”, IEEE Transactions on Instrumentation and Measurement, Vol. 58, No.9. pp. 3253 – 3262, 2009.
[9] A.A. Zulfikri, D. Perdana, and G. Bisono, “Design and Analysis of Trash Monitoring System Prototype Based On Internet of Things (IoT) Using MQTT Protocol”, Jurnal INFOTEL, Vol. 10 No. 3, pp. 113-124, 2018.
[10] N. Fahmi, Rosmida, and E. Prayitno, “Online QoS Modelling Untuk Cloud Menggunakan Teknologi WSN dan IoT Untuk Monitoring CO2 Secara Real Time”, Jurnal Teknologi Informasi dan Terapan, Vol. 5, No. 2, 2019.
[11] M. J. O’Grady and M.P. O’Hare, “Modelling the smart farm”, Information Processing in Agriculture, Vol 4, No. 3, pp. 179-187, 2017
[12] Mohanraj, I, K. Ashokomar, and Naren J, “Field Monitoring and Automation Using IOT in Agriculture Domain”, Procedia Computer Science, Vol. 93, pp. 931- 939, 2016
[13] M. A. Zamora-Izquirdo, J. Santa, J. A. Martinez, V. Martinez, A. F. Skarmeta, “Smart farming IoT platform based on edge and cloud computing”, Biosystem Engineering, Vol. 177, pp. 4-17
[14] Tse-Chuan. Hsu, H. Yang, Yeh-Ching. Chung, and Chng-Hsien Hsu, “A Creative IoT agriculture platform for cloud fog computing”, Sustainable Computing: Informatics and Systems, 2018
[15] K. Gunasekera, A. N. Borreo, F. Vasuian, and K. P. Bryceson, “Experiences in building an IoT infrastructure for agriculture education”, Procedia Computer Science, Vol. 135, pp. 155-162, 2018.