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Main Author: Kong, Xiangxiong
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.18925
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author Kong, Xiangxiong
author_facet Kong, Xiangxiong
contents Historic structures are important for our society but could be prone to structural deterioration due to long service durations and natural impacts. Monitoring the deterioration of historic structures becomes essential for stakeholders to take appropriate interventions. Existing work in the literature primarily focuses on assessing the structural damage at a given moment instead of evaluating the development of deterioration over time. To address this gap, we proposed a novel five-component digital twin framework to monitor time-varying changes in historic structures. A testbed of a casemate in Fort Soledad on the island of Guam was selected to validate our framework. Using this testbed, key implementation steps in our digital twin framework were performed. The findings from this study confirm that our digital twin framework can effectively monitor deterioration over time, which is an urgent need in the cultural heritage preservation community.
format Preprint
id arxiv_https___arxiv_org_abs_2407_18925
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Monitoring Time-Varying Changes of Historic Structures Through Photogrammetry-Driven Digital Twinning
Kong, Xiangxiong
Computer Vision and Pattern Recognition
Computers and Society
Historic structures are important for our society but could be prone to structural deterioration due to long service durations and natural impacts. Monitoring the deterioration of historic structures becomes essential for stakeholders to take appropriate interventions. Existing work in the literature primarily focuses on assessing the structural damage at a given moment instead of evaluating the development of deterioration over time. To address this gap, we proposed a novel five-component digital twin framework to monitor time-varying changes in historic structures. A testbed of a casemate in Fort Soledad on the island of Guam was selected to validate our framework. Using this testbed, key implementation steps in our digital twin framework were performed. The findings from this study confirm that our digital twin framework can effectively monitor deterioration over time, which is an urgent need in the cultural heritage preservation community.
title Monitoring Time-Varying Changes of Historic Structures Through Photogrammetry-Driven Digital Twinning
topic Computer Vision and Pattern Recognition
Computers and Society
url https://arxiv.org/abs/2407.18925