Abstract
This paper describes an alternative structural health monitoring (SHM) framework for low-light settings or dark environments using underexposed images from vision-based sensors based on the practical implementation of image enhancement algorithms. The proposed framework was validated by two experimental works monitored by two vision systems under ambient lights without assistance from additional lightings. The first experiment monitored six artificial templates attached to a sliding bar that was displaced by a standard one-inch steel block. The effect of image enhancement in the feature identification and bundle adjustment integrated into the close-range photogrammetry were evaluated. The second validation was from a seismic shake table test of a full-scale three-story building tested at E-Defense in Japan. Overall, this study demonstrated the efficiency and robustness of the proposed image enhancement framework in (i) modifying the original image characteristics so the feature identification algorithm is capable of accurately detecting, locating and registering the existing features on the object; (ii) integrating the identified features into the automatic bundle adjustment in the close-range photogrammetry process; and (iii) assessing the measurement of identified features in static and dynamic SHM, and in structural system identification, with high accuracy.
Highlights
In recent years, vision-based sensors have been significantly developed for structural health monitoring (SHM) of engineering structures, and depend strongly on the acquisition of high-quality images or videos [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17]
This work presents a framework of improving underexposed images using image enhancement algorithms for feature identification with implementation in close-range photogrammetry and structural health monitoring
An experimental validation with systematic evaluation was conducted using a one-inch steel block text which measured the absolute difference between two vision-based systems and the one-inch block displacement
Summary
Vision-based sensors have been significantly developed for structural health monitoring (SHM) of engineering structures, and depend strongly on the acquisition of high-quality images or videos [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17]. Monitored images or videos rarely meet the computer vision (CV) requirements to be processed further when the SHM is conducted during the night and in hazy atmospheres, or under merely dark settings due to the camera design trade-off. Collected data from these environments are lacking visible details and result in underexposed and low-contrast images or videos that are dim for human vision, and challenging to be interpreted. Further image processing should be conducted before employing these algorithms to enable feature identification, track structural movement, or identify structural vibration characteristics
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