Evaluation of wireless communication devices for remote monitoring of protected crop production environment
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Hur, Seung-Oh
(Soil & Fertilizer Management Division, National Academy of Agriculture Science, Rural Development Administration)
Ryu, Myong-Jin (Department of Biosystems Machinery Engineering, Chungnam National University) Ryu, Dong-Ki (Department of Biosystems Machinery Engineering, Chungnam National University) Chung, Sun-Ok (Department of Biosystems Machinery Engineering, Chungnam National University) Huh, Yun-Kun (Department of Biosystems Machinery Engineering, Chungnam National University) Choi, Jin-Yong (Department of Landscape Architecture and Rural Systems Engineering, Seoul National University) |
1 | Adams SR, Cockshull KE, Cave CRJ. 2001. Effect of temperature on the growth and development of tomato fruits. Annals of Botany 88: 869-877. |
2 | Coates RW, Delwiche MJ. 2009. Wireless mesh network for irrigation control and sensing. Transactions of the ASABE 52(3): 971-981. |
3 | Heo WS, Shim JH, Lee SG, Kim KW, Cho MW, Kim HT. 2002. Development of web-based control system for greenhouse teleoperation. Journal of Korean Society for Agricultural Machinery 27(4): 349-354. [In Korean] |
4 | Hong YK, Lee DH, Shin IS, Kim SC, Tamaki K. 2009. Development of an autonomous guidance system based on an electric vehicle for greenhouse. Journal of Biosystems Engineering 34(6): 391-296. [In Korean] DOI |
5 | Hwang J, Shin C, Yoe H. 2010. A wireless sensor networkbased ubiquitous paprika growth management system. Sensors 10: 11566-11589. DOI |
6 | KAMICO (Korean Agricultural Machinery Industry Cooperatives), KSAM(The Korean Society for Agricultural Machinery). 2010. Agricultural Machinery Yearbook of Republic of Korea. [In Korean] |
7 | Kim SC, Hwang H. 2003. Interface of tele-task operation for automated cultivation of watermelon in greenhouse. Journal of Korean Society for Agricultural Machinery 28(6): 511- 516. |
8 | Kong DG, Ryu KH, Jin JY. 2003. Development of database for environment and control information in greenhouse. Journal of Korean Society for Agricultural Machinery 28(1): 59-64. [In Korean] |
9 | Lee HI, Kim YH, Kim DE. 2010. Analysis of spectral light intensity of high pressure sodium and metal halide lamps for plant growth. Journal of Biosystems Engineering 35(6): 413-419. [In Korean] DOI |
10 | Lee YC, Jo SE, Oh CH. 2008. Implementation of crops monitoring system using wireless sensor networks. Journal of Korea Navigation Institute 12(4): 324-331. |
11 | Li X, Cheng X, Yan K, Gong P. 2010. A monitoring system for vegetable greenhouses based on a wireless sensor network. Sensors 10: 8963-8980. DOI |
12 | Li Z, Wang N, Hong T. 2010. Radio path-loss modeling for a 2.4 GHz in-field wireless sensor network. Transactions of the ASABE 53(2): 615-624. |
13 | Lim JH, Ryu KH, Jin JY. 2003. Development of a greenhouse monitoring system using network. Journal of Korean Society for Agricultural Machinery 28(1): 53-58. [In Korean] |
14 | Shim JH, Paek WJ, Park JH, Lee SG. 2004. Development and performance evaluation of a web-based management system for greenhouse teleoperation. Journal of Biosystems Engineering 29(2): 159-166. [In Korean] |
15 | Vellidis G, Tucker M, Perry C, Kvien C, Bednarz C. 2008. A real-time wireless smart sensor array for scheduling irrigation. Computers and Electronics in Agriculture 61: 44-50. DOI ScienceOn |
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