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Toward Pixel-Level Precision for Binary Super-Resolution With Mixed Binary Representation

Xinrui Jiang, Nannan Wang, Jingwei Xin, Keyu Li, Xi Yang, Jie Li, Xinbo Gao

2022IEEE Transactions on Neural Networks and Learning Systems15 citationsDOI

Abstract

Binary neural network (BNN) is an effective method for reducing model computational and memory cost, which has achieved much progress in the super-resolution (SR) field. However, there is still a noticeable performance gap between a binary SR network and its full-precision counterpart. Considering that the information density in quantization features is far lower than full-precision features, we aim to improve the precision of quantization features to produce rich-enough output activations for SR task. First, we make several observations that a multibit value could be approximated by multiple 1-bit values, and the computation power of binary convolution could be improved by approximating the multibit convolution process. Then, we propose a mixed binary representation set to approximate multibit activations, which is effective in compensating the quantization precision loss. Finally, we present a new precision-driven binary convolution (PDBC) module, which increases the convolution precision and protects image detail information without extra computation. Compared with normal binary convolution, our method could largely reduce the information loss caused by binarization. In experiments, our methods consistently show superior performance over the baseline models and can surpass state-of-the-art methods in terms of peak signal to noise ratio (PSNR) and visual quality.

Topics & Concepts

Binary numberQuantization (signal processing)AlgorithmConvolution (computer science)Computer scienceComputationPixelArtificial intelligenceArtificial neural networkMathematicsArithmeticAdvanced Image Processing TechniquesAdvanced Vision and ImagingImage Processing Techniques and Applications
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