Publication Abstracts
Erfani et al. 2023
, C. Smith, Z. Wu, E. Asadi Shamsabadi, F. Khatami, A.R.J. Downey, J. Imran, and E. Goharian, 2023: Eye of Horus: A vision-based framework for real-time water level measurement. Hydrol. Earth Syst. Sci., 27, no. 22, 4135-4149, doi:10.5194/hess-27-4135-2023.
Heavy rains and tropical storms often result in floods, which are expected to increase in frequency and intensity. Flood prediction models and inundation mapping tools provide decision-makers and emergency responders with crucial information to better prepare for these events. However, the performance of models relies on the accuracy and timeliness of data received from in situ gaging stations and remote sensing; each of these data sources has its limitations, especially when it comes to real-time monitoring of floods. This study presents a vision-based framework for measuring water levels and detecting floods using computer vision and deep learning (DL) techniques. The DL models use time-lapse images captured by surveillance cameras during storm events for the semantic segmentation of water extent in images. Three different DL-based approaches, namely PSPNet, TransUNet, and SegFormer, were applied and evaluated for semantic segmentation. The predicted masks are transformed into water level values by intersecting the extracted water edges, with the 2D representation of a point cloud generated by an Apple iPhone 13 Pro lidar sensor. The estimated water levels were compared to reference data collected by an ultrasonic sensor. The results showed that SegFormer outperformed other DL-based approaches by achieving 99.55% and 99.81% for intersection over union (IoU) and accuracy, respectively. Moreover, the highest correlations between reference data and the vision-based approach reached above 0.98 for both the coefficient of determination (R2) and Nash-Sutcliffe efficiency. This study demonstrates the potential of using surveillance cameras and artificial intelligence for hydrologic monitoring and their integration with existing surveillance infrastructure.
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BibTeX Citation
@article{er06000g,
author={Erfani, S. M. H. and Smith, C. and Wu, Z. and Asadi Shamsabadi, E. and Khatami, F. and Downey, A. R. J. and Imran, J. and Goharian, E.},
title={Eye of Horus: A vision-based framework for real-time water level measurement},
year={2023},
journal={Hydrology and Earth System Sciences},
volume={27},
number={22},
pages={4135--4149},
doi={10.5194/hess-27-4135-2023},
}
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RIS Citation
TY - JOUR ID - er06000g AU - Erfani, S. M. H. AU - Smith, C. AU - Wu, Z. AU - Asadi Shamsabadi, E. AU - Khatami, F. AU - Downey, A. R. J. AU - Imran, J. AU - Goharian, E. PY - 2023 TI - Eye of Horus: A vision-based framework for real-time water level measurement JA - Hydrol. Earth Syst. Sci. JO - Hydrology and Earth System Sciences VL - 27 IS - 22 SP - 4135 EP - 4149 DO - 10.5194/hess-27-4135-2023 ER -
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