传统上建筑物设计在大型扁平的纸上,然后电脑出现。建筑物开始在大型平面监视器屏幕上设计,但别的别的变化了。
现代建筑的复杂性使得在2D中设计不再足以改变相对耗时的实施。幸运的是,现代计算机非常强大,也不再需要这样做。
在这次谈判中,Paul Shepherd将使用对研究委员会资助项目的案例研究,他正在努力解释下一代计算设计和优化工具如何帮助优化建筑设计,以应对可持续性和生产力司机。要完成,他将概述他认为机会在该地区的未来研发撒谎的地方
扬声器
Paul Shepherd,Ceng
沐浴大学
保罗是一个拥有的数学家,科学家和土木工程师,拥有超过20年的建筑业经验。在数学和结构消防工程中获得的学位和博士学位后,保罗为国际工程咨询,伯霍普·阿帕德劳动,达到了高级分析顾问的立场。他设置并导致了他们的复杂几何和高端分析集团,现在称为智能,开发定制的计算机软件,以克服在一些标志性建筑物上使用高调建筑师和客户的挑战。
Now Reader in Computational Design at the uniquely joint Department of Architecture & Civil Engineering at the University of Bath, his research spans a wide range of multidisciplinary projects, always in close collaboration with industry.
他的研究小组的共同目标s to facilitate the creation of complex geometry forms and to use computational techniques to improve the potential structural and environmental performance and constructability of the resulting shapes.
Paul sits on the IStructE’s Digital Workflows and Computational Design Panel. He is a passionate advocate for public engagement in research, in which context he regularly presents to audiences of over 1000 school pupils at a time to share insights into how maths is used by engineers to solve real world challenges.