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MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection
MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection
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MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection
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MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection
MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection

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MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection
MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection
Journal Article

MEAC: A Multi-Scale Edge-Aware Convolution Module for Robust Infrared Small-Target Detection

2025
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Overview
Infrared small-target detection remains a critical challenge in military reconnaissance, environmental monitoring, forest-fire prevention, and search-and-rescue operations, owing to the targets’ extremely small size, sparse texture, low signal-to-noise ratio, and complex background interference. Traditional convolutional neural networks (CNNs) struggle to detect such weak, low-contrast objects due to their limited receptive fields and insufficient feature extraction capabilities. To overcome these limitations, we propose a Multi-Scale Edge-Aware Convolution (MEAC) module that enhances feature representation for small infrared targets without increasing parameter count or computational cost. Specifically, MEAC fuses (1) original local features, (2) multi-scale context captured via dilated convolutions, and (3) high-contrast edge cues derived from differential Gaussian filters. After fusing these branches, channel and spatial attention mechanisms are applied to adaptively emphasize critical regions, further improving feature discrimination. The MEAC module is fully compatible with standard convolutional layers and can be seamlessly embedded into various network architectures. Extensive experiments on three public infrared small-target datasets (SIRSTD-UAVB, IRSTDv1, and IRSTD-1K) demonstrate that networks augmented with MEAC significantly outperform baseline models using standard convolutions. When compared to eleven mainstream convolution modules (ACmix, AKConv, DRConv, DSConv, LSKConv, MixConv, PConv, ODConv, GConv, and Involution), our method consistently achieves the highest detection accuracy and robustness. Experiments conducted across multiple versions, including YOLOv10, YOLOv11, and YOLOv12, as well as various network levels, demonstrate that the MEAC module achieves stable improvements in performance metrics while slightly increasing computational and parameter complexity. These results validate the MEAC module’s significant advantages in enhancing the detection of small and weak objects and suppressing interference from complex backgrounds. These results validate MEAC’s effectiveness in enhancing weak small-target detection and suppressing complex background noise, highlighting its strong generalization ability and practical application potential.