The Situation Development route of greenhouse in Thailand and Republic of Korea

Phakwipha Sutthiwaree; Hyundong Lee; Kangsu Kwak; Sanggyu Lee; Balguem Kim

doi:10.14456/thaidoa-agres.2020.8

Authors

Phakwipha Sutthiwaree Agricultural Engineering Research Institute, Department of Agriculture, Thailand
Hyundong Lee Smart farm Division, Department of Agricultural Engineering, National Institute of Agricultural Science Rural Development Administration, Republic of Korea
Kangsu Kwak Smart farm Division, Department of Agricultural Engineering, National Institute of Agricultural Science Rural Development Administration, Republic of Korea
Sanggyu Lee Smart farm Division, Department of Agricultural Engineering, National Institute of Agricultural Science Rural Development Administration, Republic of Korea
Balguem Kim Smart farm Division, Department of Agricultural Engineering, National Institute of Agricultural Science Rural Development Administration, Republic of Korea

DOI:

https://doi.org/10.14456/thaidoa-agres.2020.8

Keywords:

Thailand, Republic of Korea, Greenhouse, Smart farm, ICT

Abstract

The greenhouse development currently plays an important role to the smart agricultural in many countries. There are many evidences of smart farm have been documented. The smart technology enable the efficient, productivity and profits farming. The greenhouse usage mostly are traditional greenhouse and need to push forward the development in Thailand. Including to find the development routes to assemble the smart technology to traditional greenhouse economically. Meanwhile the greenhouse development has been developed and national widely adopted more than 30 years ago in Republic of Korea. Especially the smart technology currently has shown tremendous potential at vegetable and ornament horticulture in greenhouse cultivation. This review paper efforts to understand the current greenhouse situation of Thailand and Republic of Korea, including to the development routes were analyzed from the advantage of technology for the future of Thailand’s smart greenhouse.

References

Arunjit, P., Kodkla, N., and Wengchanda, P. 2015. The auto contolled and monitored greenhouse throughnetwork system. The16th TSAE National Conference and the 8th TSAE International Conference(pp. 454-458).

TSAE.Beak, J., Hong, Y., Lee, H., Lee, S., Kwak, K., Kim, B.-g., and J. Lee, 2019.Implemented data-based Koreansmart greenhouse service usingcloud computing. Jeonju: RDA.

Chansakoo, W. Panthon, S. Konchom,R. Kupawanichpong, W. N. Jiracheew S. Ammarok, and V. Thongtaksin, 2010. Development of greenhouse for Curcuma.Department of Agriculture. Bangkok.

Chansakoo, W. S. Panthon, R. Konchom, W. Kupanichpong, N. Jiracheewee, S. Ammarok and W. Thongthaksin, 2015. Development the greeenhouse for Curcuma.Department of Agriculture. Bangkok.

Chansrakoo, W., S. Panthon, W. Kupanichpong,N. Jiracheewee, A. Kobphaibun, and P. Chudee, 2006. Research and development greenhouse for Paphipedilum.Department of Agriculture. Bangkok.

Choi, M., S. Yun and Y. Yoon 2014. Survey analysis of the characteristics of greenhouse in Korea. Int. j. environ. rural dev.(5-1) ; 95-100

Itsariyawong, S. 2010. A wirless sensor network prototype for environmental monitoring in greenhouse.Nakornnayok:Sinakarintarawirot University

Jiracheewee, N., W. Chansrakoo,W. Kupawanichpong, and V. Horasart,2008. Testing on efficiency of hydroponic greenhouse. Thai Agricultural Research Journal, 26(2), 176-189.

Kim, H., Y. Ryou, Y. Kim, T. Lee, and S. Oh. 2019. Analysis of the horizontal dis-tribution of temperature and humidity in single span plasticgreenhouse. Jeonju: RDA.

Kim, Y., J. Park and Y. Park, 2016. An analysis of the current status and success factors of smart farms.Korea Rural Economic Institute.Available at : http://krei.re.kr/eng/researchReportView.do?key=355&pageType=010101&biblioId=396856&pageUnit=10&searchCnd=all&searchKrwd=&pageIndex=10&engView=Y Accessed: 12 Aug, 2019

Korea Statistic. (2019).Korean Statistic Information Service. Available at: Statistic database: http://kosis.kr/eng .Accessed: 5 Jun, 2019

Kupawanichapong, W., W. Horasart,N. Jiracheewee, S. Parnthon, and C. Komarwut, 2011. Research and development of Chrysanthemum greenhouse technology for controlled environment.Department of Agriculture. Bangkok.

Kupawanichapong, W., N. Jiracheewee,W. Chansrakoo, V. Horasart, and N. Trisri, 2006. Study on the efficiency of greenhouse.Departmentof Agricutlure. Bangkok. Lee, B.( 2019). Smart farm policy in Korea.FFTC agricultural policy platform(FFTC-AP): Available at : http://ap.fftc.agnet.org/ Accessed: 14 May, 2019

Lee, J., P. Yang, Y. Hong, H. Lee, S. Kim, and J. Beak, 2019. Evaluation of data reliability for the application of IoT technology in smart greenhouse.Jeonju: RDA.

Lee, S. 2015. Korea’s ICT related agriculturalprojects and lessons learned.International Trade and Cooperation Department EPIS.

Lee, S., H. Chun, Y. Choi, K. Jung and H. Kang, 2019. Subsurface drip irrigation systems for upland crops using ICT technology. Jeongju.Ministry of Agriculture, Food and RuralAffairs. 2019 . Key tasks dissemination of smart farming. Avalaible at : www.mafra.go.kr/english/2012/subview.doAccessed: 02 Aug, 2019

Namchanhom, T. and A. Seripattananon,2014. PLC-based automatic control system of temperature and relative humidity in soilless culture greenhousewith an evaporative cooling system and fogging system. EAU Heritage Journal Science and Technology, 98-111.

Noh, J. S., J. Kwon, and Y. Kim, 2019.Development of device measuring realtime air flow in greenhouse.Jeonju: RDA.

Office of Agricultural Economic. 2016.Agricultural Statistic of Thailand.Bangkok. Available at: www.oae.go.th. Accessed: 25 Aug, 2019

Office of Agricultural Economic. 2018.Agricultural Statistic of Thailand.Bangkok. Available at: www.oae.go.th. Accessed: 25 Aug, 2019

Panthon, S., N. Jirachiwee, S. Suaylok.W. Chansaku, P. Kongsawat, and N. Dampatic. 2015. The developmentof greenhouse for Chrysanthemum in the Northeast of Thailand. page. 354-360 In: The 8th and 16th TSAE national conference .

Park, M., D. Choi, D. Kang, J. Son, and S. Yoon, 2019. Study on specification and ventilation window of multi span greenhouse. Jeonju: RDA.

Pitakphongmetha, J., N. Boonnam. and S. Wongkoon. 2019. Internet of thing for planting in smart farm hydroponicsstyle. Available at: researchgate:www.researchgate.net Accessed: 02 Aug, 2019

Pongsrihadulchai, A. 2019. Thailand agriculturalpolicies and development strategies.Available at: FFTC agricultural policyplatform: http://ap.fftc.agnet.org/ap_db.php?id=980&print=1.Accessed : 18 Jun, 2019

Ranokpanuwat, R. 2018. Greenhousehydroponic automation system usingIoT technology and deep learning tool. J. Inf. Sci Tech. 8(2), 74-82.

Ryu, M., J. Yun, T. Miao, I.y. Ahn, S.-C. Choi, and J. Kim, 2019. Design and implementation of a connectedfarm for smart farming system.Researchgate. Available at : Researchgate: www.researchgate.net/publication/304287793.Accessed: 02 Aug, 2019.

Shin, G., J. Seo, J. Son, S. Park, D. Son, and Y. Cho. 2019. Analysis on the effectiveness of management model for reducing production cost of Zucchini in Plastic house. Jeonju: RDA.

Sittitiamjan, K., S. Jitprakong, and P. Sanitchur. 2017. The development of temperature sensor system for layer hen farm in Chantaburiprovince. page: 1158-1165 In:The 4th national academy conference University of Ratchapat PethchaburiPetchaburi; University of Ratchapat Pethchaburi.

Verdonk, R. 2018. Korea’s controlled horticulture. USDA foreign agriculture.

Wongbongkotpaisan, J., R. Angkanarungrat, O.Sae-Tang, R. Kaeworn,C. Churak, P. Peamsap and K. Paponpen. 2019. Programming of testing the temperature and soil moisture for intellilgent farming usinggrowing of organic vegetables.In: 11th ECTI-CARD 2019, Ubon-Ratchathani Thailand.Ubon-Ratchathani.

The Situation Development route of greenhouse in Thailand and Republic of Korea

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