Won‐Hwa Hong scite author profile

Bridge inspection using unmanned aerial vehicles (UAV) with high performance vision sensors has received considerable attention due to its safety and reliability. As bridges become obsolete, the number of bridges that need to be inspected increases, and they require much maintenance cost. Therefore, a bridge inspection method based on UAV with vision sensors is proposed as one of the promising strategies to maintain bridges. In this paper, a crack identification method by using a commercial UAV with a high resolution vision sensor is investigated in an aging concrete bridge. First, a point cloud-based background model is generated in the preliminary flight. Then, cracks on the structural surface are detected with the deep learning algorithm, and their thickness and length are calculated. In the deep learning method, region with convolutional neural networks (R-CNN)-based transfer learning is applied. As a result, a new network for the 384 collected crack images of 256 × 256 pixel resolution is generated from the pre-trained network. A field test is conducted to verify the proposed approach, and the experimental results proved that the UAV-based bridge inspection is effective at identifying and quantifying the cracks on the structures.

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The inventory of sources, environmental releases and risk assessment for perfluorooctane sulfonate in China

Zhang

Liu

et al. 2012

Environmental Pollution

115

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Evacuation performance of individuals in different visibility conditions

Jeon

Kim

Hong

et al. 2011

Building and Environment

140

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Won‐Hwa Hong

Shared-nearest-neighbor-based clustering by fast search and find of density peaks

Exploiting IoT and big data analytics: Defining Smart Digital City using real-time urban data

Application of Crack Identification Techniques for an Aging Concrete Bridge Inspection Using an Unmanned Aerial Vehicle

The inventory of sources, environmental releases and risk assessment for perfluorooctane sulfonate in China

Evacuation performance of individuals in different visibility conditions

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