Bibliographic Details
| Title: |
A Study on the Monitoring of Floating Marine Macro-Litter Using a Multi-Spectral Sensor and Classification Based on Deep Learning. |
| Authors: |
Jeong, Youchul1 (AUTHOR) youchul1821@pusan.ac.kr, Shin, Jisun1 (AUTHOR) sjs1008@pusan.ac.kr, Lee, Jong-Seok2 (AUTHOR) hot4027@pusan.ac.kr, Baek, Ji-Yeon2,3 (AUTHOR) jy_baek@kiost.ac.kr, Schläpfer, Daniel4 (AUTHOR) daniel@rese-apps.com, Kim, Sin-Young2 (AUTHOR) tmzkt35@naver.com, Jeong, Jin-Yong5 (AUTHOR) jyjeong@kiost.ac.kr, Jo, Young-Heon1,6 (AUTHOR) joyoung@pusan.ac.kr |
| Source: |
Remote Sensing. Dec2024, Vol. 16 Issue 23, p4347. 20p. |
| Subject Terms: |
*CONVOLUTIONAL neural networks, *MARINE debris, *MARINE pollution, *REFLECTANCE, *ALTITUDES, *DEEP learning, *MULTISPECTRAL imaging |
| Abstract: |
Increasing global plastic usage has raised critical concerns regarding marine pollution. This study addresses the pressing issue of floating marine macro-litter (FMML) by developing a novel monitoring system using a multi-spectral sensor and drones along the southern coast of South Korea. Subsequently, a convolutional neural network (CNN) model was utilized to classify four distinct marine litter materials: film, fiber, fragment, and foam. Automatic atmospheric correction with the drone data atmospheric correction (DROACOR) method, which is specifically designed for currently available drone-based sensors, ensured consistent reflectance across altitudes in the FMML dataset. The CNN models exhibited promising performance, with precision, recall, and F1 score values of 0.9, 0.88, and 0.89, respectively. Furthermore, gradient-weighted class activation mapping (Grad-CAM), an object recognition technique, allowed us to interpret the classification performance. Overall, this study will shed light on successful FMML identification using multi-spectral observations for broader applications in diverse marine environments. [ABSTRACT FROM AUTHOR] |
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| Database: |
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