Liangming Zhou scite author profile

Image manipulation detection is to identify the authenticity of each pixel in images. One typical approach to uncover manipulation traces is to model image correlations. The previous methods commonly adopt the grids, which are fixed-size squares, as graph nodes to model correlations. However, these grids, being independent of image content, struggle to retain local content coherence, resulting in imprecise detection. To address this issue, we describe a new method named Hierarchical Region-aware Graph Reasoning (HRGR) to enhance image manipulation detection. Unlike existing grid-based methods, we model image correlations based on content-coherence feature regions with irregular shapes, generated by a novel Differentiable Feature Partition strategy. Then we construct a Hierarchical Region-aware Graph based on these regions within and across different feature layers. Subsequently, we describe a structural-agnostic graph reasoning strategy tailored for our graph to enhance the representation of nodes. Our method is fully differentiable and can seamlessly integrate into mainstream networks in an end-to-end manner, without requiring additional supervision. Extensive experiments demonstrate the effectiveness of our method in image manipulation detection, exhibiting its great potential as a plug-and-play component for existing architectures.

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Characteristics of water exchange in the Luzon Strait during September 2006

Zhou

Nan

Shi

et al. 2009

Chin. J. Ocean. Limnol.

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Observation and numerical experiments for drag coefficient under typhoon wind forcing

Cao

Zhou

et al. 2017

J. Ocean Univ. China

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Liangming Zhou

Numerical simulation of wave field in the South China Sea using WAVEWATCH III

Dependence of mean square slope on wave state and its application in altimeter wind speed retrieval

Wind wave characteristics and engineering environment of the South China Sea

Characteristics of water exchange in the Luzon Strait during September 2006

Observation and numerical experiments for drag coefficient under typhoon wind forcing

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