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PEPSI++: Fast and Lightweight Network for Image Inpainting

Yong-Goo Shin, Min-Cheol Sagong, Yoon-Jae Yeo, Seung‐Wook Kim, Sung-Jea Ko

2020IEEE Transactions on Neural Networks and Learning Systems115 citationsDOIOpen Access PDF

Abstract

Among the various generative adversarial network (GAN)-based image inpainting methods, a coarse-to-fine network with a contextual attention module (CAM) has shown remarkable performance. However, due to two stacked generative networks, the coarse-to-fine network needs numerous computational resources, such as convolution operations and network parameters, which result in low speed. To address this problem, we propose a novel network architecture called parallel extended-decoder path for semantic inpainting (PEPSI) network, which aims at reducing the hardware costs and improving the inpainting performance. PEPSI consists of a single shared encoding network and parallel decoding networks called coarse and inpainting paths. The coarse path produces a preliminary inpainting result to train the encoding network for the prediction of features for the CAM. Simultaneously, the inpainting path generates higher inpainting quality using the refined features reconstructed via the CAM. In addition, we propose Diet-PEPSI that significantly reduces the network parameters while maintaining the performance. In Diet-PEPSI, to capture the global contextual information with low hardware costs, we propose novel rate-adaptive dilated convolutional layers that employ the common weights but produce dynamic features depending on the given dilation rates. Extensive experiments comparing the performance with state-of-the-art image inpainting methods demonstrate that both PEPSI and Diet-PEPSI improve the qualitative scores, i.e., the peak signal-to-noise ratio (PSNR) and structural similarity (SSIM), as well as significantly reduce hardware costs, such as computational time and the number of network parameters.

Topics & Concepts

InpaintingComputer sciencePath (computing)Encoding (memory)Artificial intelligenceDecoding methodsImage (mathematics)Deep learningConvolution (computer science)Pattern recognition (psychology)Computer visionAlgorithmArtificial neural networkComputer networkGenerative Adversarial Networks and Image SynthesisAdvanced Image Processing TechniquesImage and Signal Denoising Methods
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