在建筑设计中使用参数化方法进行以用户为导向的发展:初步调查

Giuseppe Canestrino
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引用次数: 1

摘要

建筑设计是一个高度跨学科的研究领域,集技术、建筑、结构、社会等多个方面于一体。参与式设计,或共同设计,已经在其他学科中使用,现在由于建筑信息建模的传播而得到促进,它可以更好地控制建筑设计中的跨学科方面。但与其他学科不同,体系结构的特点是有大量的需求,部分是可形式化的、可量化的和可优化的,部分只是直观的。此外,很难采用协同设计框架,因为设计者和最终用户在不同的知识水平上工作:一个致力于满足需求类别,另一个无法抽象他的需求,因此无法正确地将需求或愿望形式化。在预设计阶段使用简单的参数模型,基于能够生成依赖于多个可修改变量的几何图形的算法,可以克服这个问题。本文通过向可能的最终用户提供参数模型,允许他们探索设计空间,确定优先输出并克服他们的一些技术差距,对整合自下而上的设计方面的可能性进行了初步调查。在预设计阶段的参数化环境中工作,可以集成进化多目标优化算法(EMOA)等工具。可以定义新的适应度函数,使设计更接近最终用户提出的输出,而不忽略性能优化,这在参数设计中是典型的。所提出的框架不同于现有的工业设计中使用的“产品配置器”,后者允许审美特征的个性化。本文旨在更好地理解最终用户的意愿,以便在随后的设计阶段更好地满足他们。将对目前可用于实现这一框架的技术工具进行分析,找出不足和问题,以及方法上的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Use of parametric approach for user-oriented development in building design: preliminary investigations
Building design is a highly interdisciplinary research field integrating technological, architectural, structural, social and other aspects. Participatory design, or co-design, already used in other disciplines, is now facilitated by the diffusion of Building Information Modelling which offers greater control of the interdisciplinary aspects in building design. But unlike other disciplines, architecture is characterized by a high number of requirements, partly formalizable, quantifiable and optimizable and partly only intuitive. Furthermore is difficulty to employ a collaborative design framework because designer and end user work on different knowledge levels: one works on satisfying classes of requirements, and the other is unable to abstract his needs and therefore properly formalize requirements or desires. The use of simple parametric models in the pre-design phase, based on algorithms capable of generating geometries dependent on multiple modifiable variables, could overcome this problem.This paper offers a preliminary investigation on the possibility of integrating bottom-up design aspects by giving parametric models to possible end users and allowing them to explore the design space, identifying preferential outputs and overcoming some of their technical gaps. Working in parametric environments in the pre-design phase opens to the integration of tools such as evolutionary multiobjective optimization algorithms (EMOA). New fitness functions can be defined to bring design closer to the end users’ proposed outputs without neglecting performance optimization, which is typical in parametric design. The framework proposed differs from existing “product configurator”, used in industrial design, which allows the personalization of aesthetic characteristics. This paper aims at a greater understanding of the end user’s will for satisfying them better in the subsequent design phases.The technological tools currently available to make this framework possible will be analysed, identifying shortcomings and problems, along with methodological implications.
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