A Study on Sampling Strategies to Determine the Variability of Parametric History-Based 3D CAD Models

Volume 13: Design, Reliability, Safety, and Risk Pub Date : 2018-11-09 DOI:10.1115/IMECE2018-87404

M. Contero, Ferran Naya, David Pérez-López, Pedro Company, J. Camba

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引用次数: 3

Abstract

Design reusability largely depends on the parametric quality of its associated digital product data. In this regard, the quality of the master model (typically a history-based parametric model) is crucial. However, no quantitative metrics exist that can provide an accurate assessment of parametric complexity and model reusability. In this paper, a set of 370 parametric 3D CAD models of various geometric complexities were analyzed to assess their robustness when undergoing alteration. Three indicators for estimating the modification ability of the model are proposed: Ratio for Exhaustive Modification, Ratio for Selective Exhaustive Modification, and Ratio for Weighted Exhaustive Modification. Correlations between these indicators as well as other geometric complexity metrics are studied. The geometric complexity metrics considered in our study include number of faces, surface area to volume ratio, sphericity, and convexity. Our experimental results with the proposed indicators provide new insights on the quantitative assessment of parametric complexity and support their use as reliable indicators of CAD model reusability.

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基于参数化历史的三维CAD模型变异性采样策略研究

设计的可重用性很大程度上取决于与之相关的数字产品数据的参数化质量。在这方面，主模型(通常是基于历史的参数模型)的质量是至关重要的。然而，没有定量的度量存在，可以提供参数复杂性和模型可重用性的准确评估。本文对370个不同几何复杂度的参数化三维CAD模型进行了分析，以评估其在改变时的鲁棒性。提出了三个评价模型修正能力的指标:穷举修正比、选择性穷举修正比和加权穷举修正比。这些指标之间的相关性以及其他几何复杂性指标进行了研究。在我们的研究中考虑的几何复杂性指标包括面数、表面积与体积比、球度和凸度。我们提出的指标的实验结果为参数复杂性的定量评估提供了新的见解，并支持它们作为CAD模型可重用性的可靠指标。

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 13: Design, Reliability, Safety, and Risk

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