CHANG Ting-Wei, SATO Daiki. Influence of Frame Damping on the VE System and the Wind-Induced Responses, AIJ Kanto Branch Research Report. 2023:453-456.
Ting-Wei Chang, Daiki Sato. Frequency-domain Method for VE Systems with Frequency Sensitivity Subjected to Along-wind without Mean Component, Summaries of Technical Papers of Annual Meeting of Architectural Institute of Japan. 2022:469-470.
張庭維, 佐藤大樹. 高減衰超高層建物の風応答ピークファクターの検討, 2021年度第92回日本建築学会関東支部研究発表会, 日本建築学会関東支部研究報告集, 一般社団法人日本建築学会, Ⅰ, pp. 357-360, Mar. 2022.
張庭維, 佐藤大樹. 振動数依存性を有する粘弾性ダンパーを設置して制振建物の風応答時におけるエネルギー入力の予測手法の提案, 日本建築学会大会(東海)学術講演会, 日本建築学会大会学術講演梗概集, 一般社団法人 日本建築学会, pp. 693-694, Sept. 2021.
Chang Ting-Wei, Daiki Sato. Prediction of Wind-Induced Response for Damped System with Frequency-Sensitivity, AIJ Kanto Branch Research Report 2021: 353-356.
Ting-Wei Chang, Daiki Sato. Influence of Frequency Sensitivity on Energy Dissipated in VE damper Subjected to Wind Force, SOFTech Workshop for Young Researchers 2020, Proceedings of SOFTech Workshop for Young Researchers 2020, Consortium for Socio-Functional Continuity Technology SOFTech, Feb. 2020.
Ting-Wei CHANG, Daiki Sato. Comparison in Wind-induced response of the Simplified VE dampers Considering Frequency-Sensitivity, 第26回風工学シンポジウム, National Symposium on Wind Engineering Proceeding, Japan Association for Wind Engineering, No. 26, pp. 90-95, Nov. 2020.
Ting-Wei Chang, Daiki Sato. Energy Dissipated in Wind-induced Response of VE dampers with Frequency-sensitivity, Summaries of Technical Papers of Annual Meeting of Architectural Institute of Japan. 2020: 915-916.
Ting-Wei Chang, Daiki Sato. Influence of Frequency-Sensitive VE Damper on Wind-Induced Energy Dissipated, AIJ Kanto Branch Research Report. 2019:233-236.
Ting-Wei Chang, Dave M Osabel, Daiki Sato, Kazuhiko Kasai. Study of Full-Scale Multi-Layered Viscoelastic Dampers under Long-Duration Harmonic Loading (Part 2: Analytical Investigation using Three-Dimensional Finite Element Model), Summaries of Technical Papers of Annual Meeting of Architectural Institute of Japan. 2019: 749-750.
Chang, T. W., & Hung, C. C. (2018). Numerical Analysis of Response of T-Shaped RC Shear Walls under Biaxial Loading. In 2018 World Congress on Advances in Civil, Environmental, and Materials Research, Incheon, Korea, Aug. 2018.
Chang, T. W., & Hung, C. C. (2018). Modeling the Behavior of T-shaped RC Shear Walls Subjected to Biaxial Loading. Asian Conference on Civil, Material and Environmental Sciences (ACCMES), Tokyo, Japan, July 2018.