1 |
Architectural Institute of Korea. (2016). Korean Building Code-Structural (in Korean).
|
2 |
Kim, H. (2017a). Effect of Shear Wall Stiffness on Optimal Location of Outrigger in Offset Outrigger System of High-rise Building, Journal of the Regional Association of Architectural Institute of Korea, 19(3), 95-102 (in Korean).
|
3 |
Kim, H. (2017b). Analysis on Effect of Frame Stiffness on Optimum Outrigger Position in High-rise Offset Outrigger System, Journal of the Regional Association of Architectural Institute of Korea, 19(4), 121-128 (in Korean).
|
4 |
Kim, H. (2017c). Investigation of Optimal Outrigger Location of High-rise Offset Outrigger System, Journal of the Korea Institute for Structural Maintenance and Inspection, 21(6), 16-24 (in Korean).
DOI
|
5 |
Kim, H. (2019a). Effect of Shear Wall Stiffness on Optimal Location of Core and Offset Outrigger Considering Floor Diaphragm, Journal of the Korea Institute for Structural Maintenance and Inspection, 23(5), 37-47 (in Korean).
|
6 |
Kim, H. (2019b). Proposal for Optimal Outrigger Location Considering Stiffness of Frame, Journal of Architectural Institute of Korea, 35(9), 183-190 (in Korean).
|
7 |
Kim, H. (2019c). Proposal for Optimal Position of Offset Outrigger, Journal of the Korea Institute for Structural Maintenance and Inspection, 23(6), 84-91 (in Korean).
|
8 |
Kim, J., Park, Y. (2003). The Structural Design of High-rise Building, International Seminar of Tall Buildings and Urban Habitat, Architectural Institute of Korea, 64-74 (in Korean).
|
9 |
Lee, S., Kim, H. (2018). Structural Analysis for Determination of Optimal Outrigger Location in Core and Offset Outrigger System, Journal of the Regional Association of Architectural Institute of Korea, 20(5), 45-52 (in Korean).
|
10 |
Midas IT. (2018). MIDAS GEN, Analysis & Design.
|
11 |
Smith, B., Salim, I. (1981). Parameter Study of Outrigger-braced Tall Building Structures, Proceedings of the American Society of Civil Engineers, 107(10), 2001-2014.
|