Device Development for Soil Parameter Measurements in Crop Area by Using Wireless Sensor Network for Smart Farm
Article Sidebar
Main Article Content
Abstract
This research aims to develop and improve an effective of the system for measure the soil parameters in the crops area. In addition, we made the smart farm system which can be monitor the farm environmental by website and application on smart phone.
The tool that we developed and applied to test in our research on the part of the devices are consist of the microcontroller and Xbee Series 2 for building a wireless sensor network to use for collect and store the data. The solar cell to convents an energy of light directly by the photovoltaic effect and soil parameters measurement which consist of soil moisture and underground water level.
Article Details
Article Accepting Policy
The editorial board of Thai-Nichi Institute of Technology is pleased to receive articles from lecturers and experts in the fields of business administration, languages, engineering and technology written in Thai or English. The academic work submitted for publication must not be published in any other publication before and must not be under consideration of other journal submissions. Therefore, those interested in participating in the dissemination of work and knowledge can submit their article to the editorial board for further submission to the screening committee to consider publishing in the journal. The articles that can be published include solely research articles. Interested persons can prepare their articles by reviewing recommendations for article authors.
Copyright infringement is solely the responsibility of the author(s) of the article. Articles that have been published must be screened and reviewed for quality from qualified experts approved by the editorial board.
The text that appears within each article published in this research journal is a personal opinion of each author, nothing related to Thai-Nichi Institute of Technology, and other faculty members in the institution in any way. Responsibilities and accuracy for the content of each article are owned by each author. If there is any mistake, each author will be responsible for his/her own article(s).
The editorial board reserves the right not to bring any content, views or comments of articles in the Journal of Thai-Nichi Institute of Technology to publish before receiving permission from the authorized author(s) in writing. The published work is the copyright of the Journal of Thai-Nichi Institute of Technology.
References
V. Romanov, D. Artemenko, I. Galelyuka, O. Kovyrova, Y. Sarakhan, V. Fedak, “Computer devices for precision agriculture,” Intelligent Data Acquisition and Advanced Computing Systems (IDAACS), 2011 IEEE 6th International Conference on., Prague., 2011, pp. 26-29.
Qiang Wang, A. Terzis, A. Szalay, “Anovel soil measuring wireless sensor network,” Instrumentation and Measurement Technology Conference (I2MTC), 2010 IEEE., Austin., TX, 2010, pp. 412-415.
R.G. Vishwakarma, V. Choudhary, “Wireless solution for irrigation in agriculture,” Signal Processing, Communication, Computing and Networking Technologies (ICSCCN), 2011 International Conference on., Thuckafay., 2011, pp. 61-63.
I. Plotog, G. Varzaru, B. Mihailescu, “Device for multiple environment parameters measurements for agriculture use,” Design and Technology in Electronic Packaging (SIITME), 2014 IEEE 20th International Symposium for., Bucharest., 2014, pp. 207-210.
M.A. Fourati, W. Chebbi, A. Kamoun, “Development of a web-based weather station for irrigation scheduling,” Information Science and Technology (CIST), 2014 Third IEEE International Colloquium in., Tetouan., 2014, pp. 37-42.
S. Sulaiman, A. Manut, A.R. Nur Firdaus, “Design, Fabrication and Testing of Fringing Electric Field Soil Moisture Sensor for Wireless Precision Agriculture Applications,” Information and Multimedia Technology, 2009. ICIMT’09. International Conference on., Jeju Island, Korea (South)., 2009, pp. 513-516.
J.A.G. Gnecchi, L.F. Tirado, G.M.C. Campos, R.D. Ramirez, C.F.E. Gordillo, “Design of a Soil Moisture Sensor with Temperature Compensation Using a Backpropagation Neural Network,” Electronics, Robotics and Automotive Mechanics Conference, 2008. CERMA’08., Morelos., 2008, pp. 553-558.
Yandong Zhao, “Study on soil water content real-time measuring method and sensor structure,” Industrial Electronics and Applications, 2009. ICIEA 2009. 4th IEEE Conference on., Xi’an., 2009, pp. 3815-3818.
N. Codreanu, G. Varzaru, C. Ionescu, “Solar powered wireless multi-sensor device for an irrigation system,” Electronics Technology (ISSE), Proceedings of the 2014 37th International Spring Seminar on., Dresden., 2014, pp. 442-447.
Kaewmard, N.; Saiyod, S., “Sensor data collection and irrigation control on vegetable crop using smart phone and wireless sensor networks for smart farm.” Wireless Sensors (ICWiSE), 2014 IEEE Conference on, pp. 106,112, 26-28 Oct. 2014.