TY - GEN
T1 - EVALUATION OF DEEP LEARNING SEMANTIC SEGMENTATION FOR LAND COVER MAPPING ON MULTISPECTRAL, HYPERSPECTRAL AND HIGH SPATIAL AERIAL IMAGERY
AU - Panuntun, Ilham Adi
AU - Chen, Ying Nong
AU - Jamaluddin, Ilham
AU - Tran, Thi Linh Chi
N1 - Publisher Copyright:
© 2023 ACRS. All Rights Reserved.
PY - 2023
Y1 - 2023
N2 - In the rise of climate change, land cover mapping has become such an urgent need in environmental monitoring. The accuracy of land cover classification has gotten increasingly based on the improvement of remote sensing data. Land cover classification using satellite imageries has been explored and become more prevalent in recent years, but the methodologies remain some drawbacks of subjective and time-consuming. Some deep learning techniques have been utilized to overcome these limitations. However, most studies implemented just one image type to evaluate algorithms for land cover mapping. Therefore, our study conducted deep learning semantic segmentation in multispectral, hyperspectral, and high spatial aerial image datasets for landcover mapping. This research implemented a semantic segmentation method such as Unet, Linknet, FPN, and PSPnet for categorizing vegetation, water, and others (i.e., soil and impervious surface). The LinkNet model obtained high accuracy in IoU (Intersection Over Union) at 0.92 in all datasets, which is comparable with other mentioned techniques. In evaluation with different image types, the multispectral images showed higher performance with the IoU, and F1-score are 0.993 and 0.997, respectively. Our outcome highlighted the efficiency and broad applicability of LinkNet and multispectral image on land cover classification. This research contributes to establishing an approach on landcover segmentation via open source for long-term future application.
AB - In the rise of climate change, land cover mapping has become such an urgent need in environmental monitoring. The accuracy of land cover classification has gotten increasingly based on the improvement of remote sensing data. Land cover classification using satellite imageries has been explored and become more prevalent in recent years, but the methodologies remain some drawbacks of subjective and time-consuming. Some deep learning techniques have been utilized to overcome these limitations. However, most studies implemented just one image type to evaluate algorithms for land cover mapping. Therefore, our study conducted deep learning semantic segmentation in multispectral, hyperspectral, and high spatial aerial image datasets for landcover mapping. This research implemented a semantic segmentation method such as Unet, Linknet, FPN, and PSPnet for categorizing vegetation, water, and others (i.e., soil and impervious surface). The LinkNet model obtained high accuracy in IoU (Intersection Over Union) at 0.92 in all datasets, which is comparable with other mentioned techniques. In evaluation with different image types, the multispectral images showed higher performance with the IoU, and F1-score are 0.993 and 0.997, respectively. Our outcome highlighted the efficiency and broad applicability of LinkNet and multispectral image on land cover classification. This research contributes to establishing an approach on landcover segmentation via open source for long-term future application.
KW - deep learning
KW - hyperspectral image
KW - land cover
KW - multi-spectral image
KW - semantic segmentation
UR - http://www.scopus.com/inward/record.url?scp=85191261538&partnerID=8YFLogxK
M3 - 會議論文篇章
AN - SCOPUS:85191261538
T3 - 44th Asian Conference on Remote Sensing, ACRS 2023
BT - 44th Asian Conference on Remote Sensing, ACRS 2023
PB - Asian Association on Remote Sensing
T2 - 44th Asian Conference on Remote Sensing, ACRS 2023
Y2 - 30 October 2023 through 3 November 2023
ER -