Design and Application for a Smart Farm in Thailand Based on IoT

Nattapong Phanthuna; Teerachai Lumnium

doi:10.4028/www.scientific.net/AMM.866.433

Paper Titles

Some Homomorphism Properties of TM-Algebras
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Doubt Fuzzy Ideals of B-Algebras
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Numerical Simulation of Moisture and Temperature in Stored Grains
p.414

Development of Thermal Spray Map for Liquid Feeding Thermal Spray System
p.418

Exploring the Relationship between Brand Green Image, Environmental Performance and Consumer Green Consciousness and Purchase Intention of Fashion Products
p.425

Design and Application for a Smart Farm in Thailand Based on IoT
p.433

Technical and Economic Analysis for Harmonic Distortion Impact and Mitigation Technique in Power Networks
p.439

A Literature Review of Manufacturing Eco-Friendly Comfort Textiles and Future Agenda
p.444

A Study of Brand Green Image in Relation to Eco-Branding of Fashion Products
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 866Design and Application for a Smart Farm in...

Design and Application for a Smart Farm in Thailand Based on IoT

Abstract:

This article was studied and designed to merge the IoT (Internet of Thing) technology in an agricultural technology. The IoT technology will use the sensor and transducer technology to measure and record agricultural parameters for monitoring and controlling many orchards automatically and simultaneously. All measured data (such as ambient temperature, pressure of water supply system, water level in a clarifier, water quality for watering, and etc.) will be send via 3G into the internet network and shown on user smart phone. Therefore, any users will be able to monitor their farm status from anywhere all the time. The experimental result verifies that this proposed water management system can actually work following controller’s conditions and all data can be sent via the internet network in real time.

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Periodical:

Applied Mechanics and Materials (Volume 866)

Pages:

433-438

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.866.433

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Online since:

June 2017

Authors:

Nattapong Phanthuna*, Teerachai Lumnium

Keywords:

Internet of Things, Monitoring, Signal Integrate

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* - Corresponding Author

References

[1] Jicheng Cheng, Shanzhen Yi. Digital Agriculture One of Application Domain of Digital Earth. Proceedings of the International Symposium on Digital Earth. Science Press, (1999).

Google Scholar

[2] Yong Liang, Xiu-shan Lu, De-gui Zhang, Fu Liang. Study on the Framework System of Digital Agriculture [J]. Chinese Geographical Science. 2003, 1(13): 15-19.

Google Scholar

[3] Xuanli Liu, Macon Nelson, Mohammed Ibrahim. The Value of Information in Precision Farming. Paper of the Southern Agricultural Economics Association Annual Meeting, (2008).

Google Scholar

[4] Su-bin Shen, Qu-li Fan, Ping Zong. Study on the Architecture and Associated Technologies for Internet of Thingss. Journal of Nanjing University of Posts and Telecommunications (Natural Science). 2009, 29(6): 1-11.

Google Scholar

[5] ITU. ITU Internet Reports 2005: The Internet of Thingss.

Google Scholar

[6] Christos Goumopoulos, Achilles D. Kameas, Alan Cassells. Ontology-driven system architecture for precision agriculture applications. Int. J. Metadata, Semantics and Ontologies. 2009, 1(4): 72-84.

DOI: 10.1504/ijmso.2009.026256

Google Scholar

[7] M. Narayana Reddy, N. H. Rao. Integrating Geo-spatial Information Technologies and Participatory Methods in Agricultural Development. CURRENT SCIENCE. 2009, 1(96) : 23-25.

Google Scholar

[8] F. L. LEWIS. Wireless Sensor Networks. Smart Environments: Technologies, Protocols, and Applica-tions. New York, 2004: 1-14.

Google Scholar