1. 1) Toshihiro KUSUNOKI, Tadashi NAGASE, Masahito KIBAYASHI, Yoshihiko HAYASHI, Tetsushi UEDA:EXPERIMENTAL STUDY ON THE STRUCTURAL BEHAVIOUR OF TRADITIONAL ARCHITECTURAL COMPONENT "MASUGUMI", Journal of Structural and Construction Engineering 592, pp.129-136, 2005.6 (in Japanese) 楠寿博, 長瀬正, 木林長仁, 林良彦, 植田哲司:伝統木造建築における斗組の構造特性に関する実験的研究, 日本建築学会構造系論文集第 592 号, pp.129-136, 2005.6 DOI 10.3130/aijs.70.129_4
2. 2) Enchun Zhu, Zhiyong Chen, Jinglong Pan, Frank Lam:Structural Performance of Dou-Gong Brackets of Yingxian Wood Pagoda under Vertical Loading, World Conference on Timber Engineering, pp.238-243, 2012.6
3. 3) Masahiko Karube et al : Full-size test of ancient traditional wooden frame under horizontal loading – Part-2 Full-size test of ancient traditional wooden frame, Summaries of Technical Papers of Annual Meeting. Architectural Institute of Japan C-1, pp.269-270, 1998.9 (in Japanese) 軽部正彦, 林知行, 原田真樹, 高橋好夫, 木村勉:古代伝統木造架構の実大水平加力実験 : その 2 実大架構実験と履歴性状, 日本建築学会学術講演梗概集C-1, pp. 269-270, 1998.9
4. 4) Zherui Li, Yilin Que, Xiaolan Zhang, Qicheng Teng, Tongyu Hou, Yifan Liu, Xinmeng Wang, Zeli Que, Kohei Komatsu:Shaking Table Tests of Dou-gong Brackets on Chinese Traditional Wooden Structure: A Case Study of Tianwang Hall, Luzhi, and Ming Dynasty, BioResources 13, 4, pp.9079-9091, 2018 DOI 10.15376/biores.13.4.9079-9091
5. 5) Ben Sha, Linlin Xie, Xinqun Yong, Aiqun Li:Hysteretic behavior of an ancient Chinese multi-layer timber substructure: A full-scale experimental test and analytical model, Journal of Building Engineering 43, pp.1-11, 2021.9 DOI https://doi.org/10.1016/j.jobe.2021.103163