Getting Beyond the Hairy House: Using Structure-Function-Mechanism to Advance Biologically Inspired Design Pedagogy

Volume 6: 33rd International Conference on Design Theory and Methodology (DTM) Pub Date : 2021-08-17 DOI:10.1115/detc2021-71721

Michael E. Helms, Hoda Ehsan, Euisun Kim, Roxanne A. Moore, Meltem Alemdar, Christopher J. Cappelli, J. Rosen, M. Weissburg

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引用次数: 2

Abstract

In this case study we report on the use of a Next Generation Science Standards (NGSS)-aligned form of Structure-Behavior-Function, called Structure-Function-Mechanism (SFM), to teach four high school engineering teachers an approach for Biologically Inspired Design (BID). Functional theories of design describe a natural way in which designers solve design problems. They provide support for case-based and analogical-based reasoning systems and have been used successfully to teach BID to undergraduate students. We found that teachers instructed on BID practice and pedagogy using our modified theory were able to grasp the structural concepts and looked for clear markers separating mechanism (behavior) and function. Because of the systems-of-systems nature of most biological entities, these boundaries were often subjective, presenting unique challenge to teachers. As high school engineering teachers look for methods to enhance their pedagogy and to understand multidisciplinary content, these findings will inform future curriculum development and professional learning approaches for engineering education.

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超越毛屋:利用结构-功能-机制推进生物学启发的设计教学法

在本案例研究中，我们报告了使用与下一代科学标准(NGSS)相一致的结构-行为-功能形式，即结构-功能-机制(SFM)，向四名高中工程教师教授生物启发设计(BID)的方法。功能设计理论描述了设计师解决设计问题的自然方式。它们为基于案例和基于类比的推理系统提供支持，并已成功地用于向本科生教授BID。我们发现，在我们修正后的理论指导下进行BID实践和教学的教师能够掌握结构概念，并寻找区分机制(行为)和功能的明确标记。由于大多数生物实体的“系统的系统”性质，这些界限往往是主观的，给教师带来了独特的挑战。随着高中工程教师寻找方法来提高他们的教学法和理解多学科内容，这些发现将为未来的课程开发和工程教育的专业学习方法提供信息。

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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Volume 6: 33rd International Conference on Design Theory and Methodology (DTM)

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