Aseismic Optimization Design of Building Structures Based on Practical Reliability Algorithm

Abstract

Construction technology is closely related to social and economic development and directly affects personal safety. With the development of science and technology and the gradual improvement of architectural aesthetic and functional requirements, the height, safety and functionality of buildings have been significantly improved. In particular, the aseismic design of building structures plays a key role in improving architectural safety. In addition, the application of new materials and the improvement of construction management technology make aseismic design more applicable. Moreover, the structural reliability can objectively consider the influence and role of various random phenomena in the process of planning, construction and use of engineering structures, so as to optimize the balance between the safety and economy of building structures. At present, many high-rise buildings cannot effectively cope with the vibration and impact caused by earthquakes. The main reason is that the structural quality of high-rise buildings cannot respond well to large earthquakes. Therefore, this study analyzed the aseismic design of the building structure using the reliability practical algorithm, and optimized it so as to improve the aseismic ability of the building structure. The results showed that the aseismic capacity and structural load of the optimized building structure design were higher than the traditional ones; the aseismic capacity was about 9% higher, and the structural load was 6% higher.

Keywords: aseismic design of building structure, practical algorithm of reliability, aseismic structure optimization, optimal design

Cite As

H. Yu, J. Yin, X. Ren, C. Xing, Y. Ding, " Aseismic Optimization Design of Building Structures Based on Practical Reliability Algorithm", Engineering Intelligent Systems, vol. 33 no. 4, pp. 435-443, 2025.