Design of Seismic Structure Optimization System for High-rise Building Nased on Bayesian Network Algorithm

Proceedings of the 4th International Electronics Communication Conference Pub Date : 2022-07-08 DOI:10.1145/3560089.3560105

Jingjing Yu

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Abstract

With the development of economy, there are more and more super tall buildings in China, among which the super tall buildings distributed in high intensity areas also increase, so the seismic design of super tall buildings becomes particularly important. The development process of all countries is accompanied by increasing urbanization rate, continuous migration of population to the first and second tier cities and agglomeration to the metropolitan circle. A high degree of urbanization inevitably leads to the development of buildings in cities towards the direction of super high-rise and high plot ratio. The emergence of over-limit high-rise buildings and various complex buildings has brought continuous challenges to building structural engineers. More scientific and feasible seismic theory is needed to guide the seismic design of building structures. In this paper, the seismic optimization design of high-rise building structure is carried out based on Bayesian network algorithm, and the possibility of adopting shock absorption-isolation hybrid seismic technology in practical engineering is discussed through system simulation experiment.

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基于贝叶斯网络算法的高层建筑抗震结构优化系统设计

随着经济的发展，中国的超高层建筑越来越多，其中分布在高烈度地区的超高层建筑也越来越多，因此超高层建筑的抗震设计就显得尤为重要。各国的发展进程都伴随着城市化率的不断提高，人口不断向一二线城市迁移，向都市圈集聚。高度城市化必然导致城市建筑向超高层、高容积率方向发展。超限高层建筑和各种复杂建筑的出现，给建筑结构工程师带来了不断的挑战。需要更多科学可行的地震理论来指导建筑结构的抗震设计。本文基于贝叶斯网络算法对高层建筑结构进行了抗震优化设计，并通过系统仿真实验探讨了在实际工程中采用减震-隔震混合抗震技术的可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 4th International Electronics Communication Conference

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