Go to DBLP homepageCWIMamba: Cross-Scale Windowed Integration State Space Model for Hyperspectral Anomaly Detection
Abstract: Hyperspectral anomaly detection (HAD) intends to detect potential anomalous targets hidden in the background of hyperspectral images (HSIs) and has garnered substantial attention in various remote sensing photography and surveying applications. Recent research advances in the HAD domain have highlighted the significance of deep convolutional networks (DCNs) and vision transformers (ViTs)-based formulas. However, DCNs are long-range dependency-limited networks, whereas ViTs bear the computational burden of quadratic complexity. Owing to their prominent nonlocal representations and linear complexity, Mamba-based approaches have drawn growing attention. Our study pioneers the integration of Mamba into HAD tasks, presenting CWIMamba, which introduces a novel cross-scale windowed integration state space model (SSM) for considering the spatial distribution characteristics of the anomaly targets. Specifically, we devise a cross-scale windowed SSM (CSWSSM) to scan the spatial–spectral features based on the window-based bottleneck SSM (WBSSM) with different scales. For better multiscale feature integration, a multiscale spatial–spectral feature adaptive integration (M $\text {S}^{3}$ FAI) method is explored to generate an intensified representation of multiscale feature interaction and fusion based on the elaborate adaptive spatial–spectral weighting scheme. Moreover, we also devised a Haar discrete wavelet transform convolution module (HDWTCM) to fully replenish the local informative representation and enhance the discriminative frequency characteristics between anomalies and background, introducing more inductive local features for accurate background reconstruction and anomaly suppression. Extensive experiments on five multifarious HAD datasets and seven indicators substantiate the state-of-the-art detection performance, demonstrating the effectiveness of CWIMamba.
External IDs:dblp:journals/tgrs/HeAWLLLZ25
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