1 |
Architectural Institute of Korea, 1998. Design standard for steel pipe structures, 46-63. Seoul (in Korean)
|
2 |
Japan Greenhouse Horticulture Association, 1999. Structural safety guide of pipe houses with ground anchoring, 1-57. Tokyo (in Japanese)
|
3 |
Lee, S.G., H.W. Lee, J.E. Son, and J.W. Lee, 1994. Comparison of maximum section forces of greenhouse structures with respect to roof types. Journal of the KSAE 36(3): 84-89
과학기술학회마을
ScienceOn
|
4 |
Ministry of Food, Agriculture, Forestry and Fisheries, 2007. Designated notice of standards to endure disaster for horticultural and herbal facilities, 1-12 (in Korean)
|
5 |
Nam, S.W., and I.K. Yang, 2006. Development of a gable-roofed prefabricated pipe-house for reduction of heavy snow damage. Proceeding of Bio-Env. Con. 15(2): 201-205
|
6 |
Rural Development Administration, 2007, Structural design of horticultural and herbal facilities to endure disaster, 3-85. Suwon (in Korean)
|
7 |
Kim, M.K., and S.W. Nam, 1995. Experimental studies on the structural safety of pipe-houses. J. Bio. Fac. Env. 4(1): 17-24 (in Korean)
|
8 |
Nam, S.W., 2001. Maintenance, repair and reinforcement of pipe framed greenhouses, 46-64. Ministry of Food, Agriculture, Forestry and Fisheries (in Korean)
|
9 |
Lindley, J.A., and J.H. Whitaker, 1996. Agricultural buildings and structures, 140-146. St. Joseph, MI.: ASAE
|
10 |
Kim, M.K., S.W. Nam, W.M. Seo, Y.C. Yoon, S.G. Lee, and H.W. Lee, 2000. Agricultural structures, 38-80. Seoul: Hyangmoonsa (in Korean)
|
11 |
Korean Statistical Information Service, 2005. Agriculture Cencus Report. http://www.kosis.kr. Accessed 30 Mar. 2009
|
12 |
Lee, S.G., 2007. Development of optimum model and design systems for saving structural material and improving safety of greenhouse structure, 27-35. Ministry of Food, Agriculture, Forestry and Fisheries (in Korean)
|