Conceptos Básicos
SMAFormer, a novel Transformer-based architecture, effectively integrates synergistic multi-attention mechanisms and a multi-scale segmentation modulator to achieve state-of-the-art performance in diverse medical image segmentation tasks.
Resumen
The paper introduces SMAFormer, a Transformer-based architecture designed for efficient and accurate medical image segmentation. The key innovations are:
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Synergistic Multi-Attention (SMA) Transformer Block:
- Combines pixel attention, channel attention, and spatial attention to capture both local and global features.
- The enhanced multi-layer perceptron (E-MLP) within the SMA block incorporates depth-wise and pixel-wise convolutions to enhance the model's ability to capture local context.
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Multi-Scale Segmentation Modulator:
- Embeds positional information and provides a trainable bias term to facilitate synergistic multi-attention and enhance the network's ability to capture fine-grained details.
- Streamlines the multi-attention computations within the architecture.
The proposed SMAFormer architecture adopts a hierarchical U-shaped structure with skip connections and residual connections to enable efficient information propagation. Extensive experiments on three medical image segmentation datasets (LiTS2017, ISICDM2019, and Synapse) demonstrate that SMAFormer achieves state-of-the-art performance, surpassing existing methods in accurately segmenting various organs and tumors.
Estadísticas
"SMAFormer achieves an average DSC of 94.11% and a mean IoU of 91.94% on the LiTS2017 dataset, surpassing the performance of all other methods compared."
"SMAFormer achieves an average DSC of 96.07% and a mean IoU of 94.67% on the ISICDM2019 dataset, significantly outperforming other methods."
"SMAFormer achieves the highest average DSC of 86.08% on the Synapse multi-organ segmentation dataset."
Citas
"SMAFormer, a Transformer-based architecture, effectively integrates synergistic multi-attention mechanisms and a multi-scale segmentation modulator to achieve state-of-the-art performance in diverse medical image segmentation tasks."
"The synergistic interplay of channel, spatial, and pixel attention mechanisms within the SMA block allows for a more nuanced understanding of the input data, leading to improved segmentation accuracy."
"The multi-scale segmentation modulator contributes significantly to the overall efficacy of the SMAFormer model by embedding positional information, providing a trainable bias term, and streamlining multi-attention computations."