Strain field determination using displacement gradient model and unified least-squares technique

Scientific Research and Essays Pub Date : 2016-04-15 DOI:10.5897/SRE2015.6377

Lin Yi-chun, Han Jen-Yu

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Abstract

Deformation analysis is crucial to applications in geodesy, structural engineering, and geology, of which the main goal is to detect the behaviors of a deformed body. Traditional deformation analyses rely on a limited number of observations and thus give a relatively poor description of the strain field on the entire object. In this study, a method based on the displacement gradient model and unified least-squares adjustment is proposed to improve classical deformation analysis. Corresponding quality assessment and sensitivity analysis are derived accordingly to better assess significant deformation. Furthermore, by applying nearest neighbor searching and a triangulated irregular network, the efficiency of analyzing a vast number of observations is improved. Numerical experiments based on real data suggested that the proposed approach detected behaviors of a deformed body in an effective and efficient way. Consequently, the strain field on an object can be obtained rapidly and accurately using the proposed method and a large point dataset. Key words: Deformation analysis, strain field, dispersed point data, structural health monitoring.

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利用位移梯度模型和统一最小二乘技术确定应变场

变形分析在大地测量学、结构工程和地质学中有着重要的应用，其主要目的是检测变形体的行为。传统的变形分析依赖于有限数量的观测，因此对整个物体的应变场的描述相对较差。本文提出了一种基于位移梯度模型和统一最小二乘平差的方法来改进经典变形分析。为更好地评价重大变形，推导了相应的质量评价和敏感性分析。此外，通过最近邻搜索和不规则三角网，提高了对大量观测数据的分析效率。基于实际数据的数值实验表明，该方法能够有效地检测变形体的行为。因此，利用该方法和大型点数据集可以快速准确地获得物体上的应变场。关键词:变形分析，应变场，分散点数据，结构健康监测。

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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Scientific Research and Essays 综合性期刊-综合性期刊

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3.3 months