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Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data
Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data
by Kim, Dukhyeon , Sim, Juhyeon , Mun, Yunki , Noh, Youngmin
2026
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Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data
by Kim, Dukhyeon , Sim, Juhyeon , Mun, Yunki , Noh, Youngmin
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2026
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Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data
Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data
by Kim, Dukhyeon , Sim, Juhyeon , Mun, Yunki , Noh, Youngmin
2026

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Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data
Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data
Journal Article

Enhancing Atmospheric Monitoring: A Novel Approach to Determining Relative Lidar Ratio Using Combined Lidar and Camera Data

Kim, Dukhyeon,
Sim, Juhyeon,
Mun, Yunki,
Noh, Youngmin
2026
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Overview
In this study, we explore an innovative approach to calculate Lidar ratios, an important element of atmospheric science that is generally assumed to be constant. By integrating 532nm laser lidar with camera data, we can derive extinction coefficients from Lidar and backscatter signals from laser images captured by the camera to calculate relative Lidar ratios under different atmospheric conditions. The relative Lidar ratio here is not the actual Lidar ratio because it is obtained from the backscatter signal and not the backscatter coefficient. Our method also overcomes the near-field limitation of Lidar by using camera-derived pixel values to restore the near-field extinction coefficient. These advances present more accurate techniques for determining atmospheric properties and demonstrate the potential of combining Lidar and camera data in environmental monitoring.
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EDP Sciences

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