Evaluation of surface damage for in-service deteriorated agricultural concrete headworks using 3D point clouds by laser scanning method

IF 1.9 4区 农林科学 Q2 AGRICULTURAL ENGINEERING
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Abstract

In the agricultural field, concrete headworks is the most important structure for the irrigation system. In recent years, a number of agricultural concrete infrastructures aging for a long-term period have been increasing. For maintenance and management, conventional inspection methods are time-consuming and costly, such as the electromagnetic wave method and elastic wave method. The detection of surface damage is more effective, safe and reliable than before since the laser scanning method provides detailed geometric information about the structure. The fundamental studies on point cloud data have been conducted in the civil engineering fields; nevertheless, the characteristics of point cloud in agricultural infrastructures, such as dam, headworks and canal, have not been discussed. In this study, 3D point clouds are generated for a concrete irrigation structure using the laser scanning method. The characteristics of surface damage which are quantitatively evaluated using point cloud information, geometric information and intensity parameter are investigated. The types of detected damage are efflorescence and cracks. It is investigated whether point clouds generated from a single scan or multiple scans are more effective for highly accurate detection. The characteristics of surface damage are evaluated by geometric features. The distance between the fitted plane and points is calculated by RANSAC algorithm and roughness parameter. The amount of efflorescence is detected by the distance between the fitted plane from RANSAC algorithm and points. The crack is detected by the local plane fitting method. The types of damage are characterized by the intensity parameter which is related to the color, roughness and moisture of the object. The surface damage and condition are evaluated by both geometric information and intensity parameter. These results show the unique parameters of point clouds from laser scanning methods, such as geometric features and intensity parameter, are useful to evaluate the characteristics of surface damage.

利用三维点云激光扫描法评估在役老化农用混凝土渠首的表面损伤情况
摘要 在农业领域,混凝土渠首是灌溉系统中最重要的结构。近年来,长期老化的农业混凝土基础设施越来越多。在维护和管理方面,传统的检测方法耗时长、成本高,如电磁波法和弹性波法。由于激光扫描方法能提供详细的结构几何信息,因此检测表面损伤比以前更加有效、安全和可靠。关于点云数据的基础研究主要集中在土木工程领域,但对于农业基础设施(如水坝、渠首和水渠)中的点云特征还没有进行过讨论。本研究利用激光扫描方法生成了混凝土灌溉结构的三维点云。利用点云信息、几何信息和强度参数对表面损伤的特征进行了定量评估。检测到的损坏类型为渗出和裂缝。研究了单次扫描生成的点云还是多次扫描生成的点云对高精度检测更有效。通过几何特征来评估表面损伤的特征。通过 RANSAC 算法和粗糙度参数计算拟合平面与点之间的距离。通过 RANSAC 算法计算出的拟合平面与点之间的距离来检测渗出量。裂缝通过局部平面拟合方法检测。损伤类型由强度参数表征,强度参数与物体的颜色、粗糙度和湿度有关。表面损伤和状况通过几何信息和强度参数进行评估。这些结果表明,激光扫描方法点云的独特参数,如几何特征和强度参数,有助于评估表面损伤的特征。
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来源期刊
Paddy and Water Environment
Paddy and Water Environment AGRICULTURAL ENGINEERING-AGRONOMY
CiteScore
4.70
自引率
4.50%
发文量
36
审稿时长
2 months
期刊介绍: The aim of Paddy and Water Environment is to advance the science and technology of water and environment related disciplines in paddy-farming. The scope includes the paddy-farming related scientific and technological aspects in agricultural engineering such as irrigation and drainage, soil and water conservation, land and water resources management, irrigation facilities and disaster management, paddy multi-functionality, agricultural policy, regional planning, bioenvironmental systems, and ecological conservation and restoration in paddy farming regions.
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