参数统计
参数化设计
发掘
组分(热力学)
过程(计算)
二次开发
代表(政治)
建筑信息建模
量子隧道
地理信息系统
工程类
计算机科学
土木工程
结构工程
地质学
岩土工程
遥感
数学
软件
相容性(地球化学)
法学
操作系统
政治学
热力学
程序设计语言
统计
物理
光电子学
化学工程
政治
作者
Mansour Hedayatzadeh,Jamal Rostami,Vasilis Sarhosis,Mojtaba Nematollahi,Nabiollah Hajiantilaki,Abouzar Shafiepour
标识
DOI:10.1016/j.undsp.2023.10.009
摘要
This paper presents the development of a framework for the parametric design of tunnels using geographic information system (GIS) mapping and building information modelling (BIM). According to the framework, a parametric representation of each system component (e.g., layers of rock mass, size of excavation, topography, fault geometry, primary lining, secondary lining, rock bolts, etc.) can be incorporated in the GIS model with high levels of detail and used for the automatic generation of numerical models for the design of tunnel construction. This parametric evaluation allows the designer to consider several levels of detail for each component, for the efficient design and process optimization in conventional tunneling. Information between parametric analysis and numerical simulations can be freely exchanged with significantly reduced computational effort while results can be exported into BIM. It is anticipated that the proposed framework could lead to a comprehensive, yet efficient analysis of complex conventional tunneling project using parametric evaluations at the early design stages.
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