台灣位於太平洋火山地震帶,地震活動頻繁,結構物的安全性成為人們生存 環境中需優先考量的關鍵議題,自 921 集集大地震以來,社會對於建築物耐震 能力的重視程度不斷提高,促使建築物耐震設計規範的制定與完善。該規範根據 不同地區與地形條件設定設計地震力,為建築物安全需求提供重要的參考標準。 然而,由於台灣建物數量龐大,且許多既有建物的安全性尚未經過系統性的 評估,針對區域性建築物耐震狀況進行快速且高效的分析仍面臨諸多挑戰。本研 究針對此問題,開發了一套自動化評估程式,旨在簡化建築物耐震分析的流程, 提升大範圍內建築物安全評估的效率。程式基於建築物結構動力學理論及建築物 耐震設計規範,能夠模擬不同外力條件下的結構反應,為建築物的耐震狀況提供 科學依據。 此外,該程式可以進一步結合數據平台與資料庫資源,實現"區域性"的建築 物安全評估,從而支持地方制定更精確的防災亦或是救災計畫。;Taiwan is located in the Pacific Ring of Fire, where seismic activity is frequent. The safety of structures has become a critical issue that must be prioritized to ensure a secure living environment. Since the 921 Chi-Chi Earthquake, public awareness of the seismic resilience of buildings has significantly increased, prompting the establishment and refinement of seismic design standards for buildings. These standards incorporate design seismic forces based on different regions and topographical conditions, serving as an essential reference for building safety requirements. However, given the vast number of structures in Taiwan, many existing buildings have yet to undergo systematic safety assessments. Conducting rapid and efficient evaluations of seismic conditions for buildings across large areas remains a substantial challenge. This study addresses this issue by developing an automated assessment program aimed at simplifying the process of seismic analysis for buildings and enhancing the efficiency of large-scale structural safety evaluations. The program is grounded in structural dynamics theory and building seismic design standards, enabling simulations of structural responses under various external forces and providing scientific evidence for assessing seismic resilience. Furthermore, the program can integrate with data platforms and databases to achieve regional building safety evaluations, supporting local governments in formulating more precise disaster prevention and response plans.
