Semantic Segmentation in Satellite Hyperspectral Imagery by Deep Learning
Satellites are increasingly adopting on-board AI to optimize operations and increase autonomy through in-orbit inference. The use of Deep Learning (DL) models for segmentation in hyperspectral imagery offers advantages for remote sensing applications. In this work, we train and test 20 models for mu...
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| Main Authors | , , , , , , , |
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| Format | Journal Article |
| Language | English |
| Published |
24.10.2023
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Satellites are increasingly adopting on-board AI to optimize operations and
increase autonomy through in-orbit inference. The use of Deep Learning (DL)
models for segmentation in hyperspectral imagery offers advantages for remote
sensing applications. In this work, we train and test 20 models for multi-class
segmentation in hyperspectral imagery, selected for their potential in future
space deployment. These models include 1D and 2D Convolutional Neural Networks
(CNNs) and the latest vision transformers (ViTs). We propose a lightweight
1D-CNN model, 1D-Justo-LiuNet, which outperforms state-of-the-art models in the
hypespectral domain. 1D-Justo-LiuNet exceeds the performance of 2D-CNN UNets
and outperforms Apple's lightweight vision transformers designed for mobile
inference. 1D-Justo-LiuNet achieves the highest accuracy (0.93) with the
smallest model size (4,563 parameters) among all tested models, while
maintaining fast inference. Unlike 2D-CNNs and ViTs, which encode both spectral
and spatial information, 1D-Justo-LiuNet focuses solely on the rich spectral
features in hyperspectral data, benefitting from the high-dimensional feature
space. Our findings are validated across various satellite datasets, with the
HYPSO-1 mission serving as the primary case study for sea, land, and cloud
segmentation. We further confirm our conclusions through generalization tests
on other hyperspectral missions, such as NASA's EO-1. Based on its superior
performance and compact size, we conclude that 1D-Justo-LiuNet is highly
suitable for in-orbit deployment, providing an effective solution for
optimizing and automating satellite operations at edge. |
|---|---|
| AbstractList | Satellites are increasingly adopting on-board AI to optimize operations and
increase autonomy through in-orbit inference. The use of Deep Learning (DL)
models for segmentation in hyperspectral imagery offers advantages for remote
sensing applications. In this work, we train and test 20 models for multi-class
segmentation in hyperspectral imagery, selected for their potential in future
space deployment. These models include 1D and 2D Convolutional Neural Networks
(CNNs) and the latest vision transformers (ViTs). We propose a lightweight
1D-CNN model, 1D-Justo-LiuNet, which outperforms state-of-the-art models in the
hypespectral domain. 1D-Justo-LiuNet exceeds the performance of 2D-CNN UNets
and outperforms Apple's lightweight vision transformers designed for mobile
inference. 1D-Justo-LiuNet achieves the highest accuracy (0.93) with the
smallest model size (4,563 parameters) among all tested models, while
maintaining fast inference. Unlike 2D-CNNs and ViTs, which encode both spectral
and spatial information, 1D-Justo-LiuNet focuses solely on the rich spectral
features in hyperspectral data, benefitting from the high-dimensional feature
space. Our findings are validated across various satellite datasets, with the
HYPSO-1 mission serving as the primary case study for sea, land, and cloud
segmentation. We further confirm our conclusions through generalization tests
on other hyperspectral missions, such as NASA's EO-1. Based on its superior
performance and compact size, we conclude that 1D-Justo-LiuNet is highly
suitable for in-orbit deployment, providing an effective solution for
optimizing and automating satellite operations at edge. |
| Author | Justo, Jon Alvarez Georgescu, Mariana-Iuliana Ionescu, Radu Tudor Kovac, Daniel Gonzalez-Llorente, Jesus Johansen, Tor Arne Ghita, Alexandru Garrett, Joseph L |
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| BackLink | https://doi.org/10.48550/arXiv.2310.16210$$DView paper in arXiv |
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| Snippet | Satellites are increasingly adopting on-board AI to optimize operations and
increase autonomy through in-orbit inference. The use of Deep Learning (DL)
models... |
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| Title | Semantic Segmentation in Satellite Hyperspectral Imagery by Deep Learning |
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