References
- Ahn, C.W., Lee, M.W., Kim, Y.M. (2022) Proposal of an Approximate Formula for Calculating Natural Period of Traditional Timber Structures Using Regression Analysis, J. Arch. Inst. Korea, 38(12), pp.337~344.
- Hwang, J.K., Kwon, Y.H., Bae, D.H. (2019) Shear Resistance Capacity Length of Traditional Wooden Frame's Wall Divided into Small Frame, J. Arch. Inst. Korea : Struct. & Constr. Sect., 35(3), pp.11~18.
- Kim, H.W., Lee, J.H., Park, B.C., Lee, W.H. (2016) Fundamental Period Formulas for the Korean-Style House Using Ambient Vibration, J. Korean Soc. Hazard Mitig., 16(3), pp.281~289.
- Kim, Y.M. (2015) Evaluation of Structural Performance and Dynamic Characteristics of Korean Traditional Timber Structure Sungnyemun, J. Comput. Struct. Eng. Inst. Korea, 28(6), pp.607~614. https://doi.org/10.7734/COSEIK.2015.28.6.607
- Kim, Y.M. (2018) Monitoring and Analysis of Moisture Contents for Traditional and New-Styled Hanoks, J. Arch. Inst. Korea : Struct. & Constr. Sect., 34(3), pp.29~36.
- Kim, Y.M. (2019) An Evaluation Scheme of Torsional Irregularity for Seismic Design of Hanok, J. Arch. Inst. Korea : Struct. & Constr. Sect., 35(10), pp.191~198.
- Kim, Y.M., Kim, Y.M., Kim. H.J., Ha, T.U., Shin, E.M., Kim, W.J. (2021) Analysis of Roof Load and Dynamic Characteristics of Traditional Timber Building Considering Column Axial Force and Ambient Vibration Measurement, J. Arch. Inst. Korea, 37(11), pp.271~280.
- Kim, Y.M., Lee, S.G. (2013) Evaluation of Connection Stiffness of Test-Bed Hanok Using a 1/4 Scale Two-Storied Model, J. Arch. Inst. Korea : Struct. & Constr. Sect., 29(12), pp.73~80.
- Kim, Y.M., Lee, S.G., Lee, S.H. (2015) Evaluation of Effective Lateral Stiffness of a Korean-Traditional Wooden House with New Joint Types, Eng. Struct., 94(1), pp.113~121. https://doi.org/10.1016/j.engstruct.2015.03.008
- Kim, Y.M., Lee, S.H., Mun, D.H. (2022) Dynamic Characteristics Evaluation of Long-Span Full-Scale Modernized Hanok through Field Vibration Test, J. Arch. Inst. Korea, 38(12), pp.345~354.
- Lee, M.W., Kim, Y.M. (2020) Development of Automated Evaluation System for Torsional Irregularity of Hanok, J. Arch. Inst. Korea, 36(8), pp.173~180.
- Lee, M.W., Kim, Y.M. (2022) Evaluation of Torsional Irregularity of Korean Traditional Timber House according to Plan Type, J. Arch. Inst. Korea, 38(7), pp.247~254.
- Lee, S.G., Kim, Y.M., Roh, J.E., Lee, S.H., Woo, S.S. (2013) Dynamic Characteristics of Traditional and New Korean-Style Houses according to Excitation Amplitude, J. Arch. Inst. Korea : Struct. & Constr. Sect., 29(1), pp.49~58.
- Midas Gen Ver.890 (2020) MIDAS IT Co., Ltd.
- Min, K.W., Park, S.A. (2011) Simple Structural Model and Seismic Analysis of Heunginjimum, J. Arch. Inst. Korea : Struct. & Constr. Sect., 27(4), pp.23~30.
- Seo, J.M., Choi, I.K., Lee, J.R. (1999) Static and Cyclic behavior of Wooden Frames with Tenon Joints under Lateral Load, J. Struct. Eng., 125(3), pp.344~349. https://doi.org/10.1061/(ASCE)0733-9445(1999)125:3(344)
- Suwon City (2021) Research Report for Maintenance Plan of Unhangak in Suwon Hwaryeongjeon, Hwaseong Fortress Business Office, pp.147~296.
- Suzuki, Y., Maeno, M. (2006) Structural Mechanism of Traditional Wooden Frames by Dynamic and Static Tests, Struct. Control & Health Monit., 13(1), pp.508~522. https://doi.org/10.1002/stc.153