Xiaowei Hu scite author profile

Recent progress on salient object detection is substantial, benefiting mostly from the explosive development of Convolutional Neural Networks (CNNs). Semantic segmentation and salient object detection algorithms developed lately have been mostly based on Fully Convolutional Neural Networks (FCNs). There is still a large room for improvement over the generic FCN models that do not explicitly deal with the scale-space problem. Holistically-Nested Edge Detector (HED) provides a skip-layer structure with deep supervision for edge and boundary detection, but the performance gain of HED on saliency detection is not obvious. In this paper, we propose a new salient object detection method by introducing short connections to the skip-layer structures within the HED architecture. Our framework takes full advantage of multi-level and multi-scale features extracted from FCNs, providing more advanced representations at each layer, a property that is critically needed to perform segment detection. Our method produces state-of-theart results on 5 widely tested salient object detection benchmarks, with advantages in terms of efficiency (0.08 seconds per image), effectiveness, and simplicity over the existing algorithms. Beyond that, we conduct an exhaustive analysis on the role of training data on performance. Our experimental results provide a more reasonable and powerful training set for future research and fair comparisons.

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Oscar: Object-Semantics Aligned Pre-training for Vision-Language Tasks

Yin

et al. 2020

1,056

954

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Richer Convolutional Features for Edge Detection

Liu

Cheng

et al. 2019

IEEE Trans. Pattern Anal. Mach. Intell.

573

692

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In this paper, we propose an accurate edge detector using richer convolutional features (RCF). Since objects in natural images possess various scales and aspect ratios, learning the rich hierarchical representations is very critical for edge detection. CNNs have been proved to be effective for this task. In addition, the convolutional features in CNNs gradually become coarser with the increase of the receptive fields. According to these observations, we attempt to adopt richer convolutional features in such a challenging vision task. The proposed network fully exploits multiscale and multilevel information of objects to perform the image-to-image prediction by combining all the meaningful convolutional features in a holistic manner. Using VGG16 network, we achieve state-of-the-art performance on several available datasets. When evaluating on the well-known BSDS500 benchmark, we achieve ODS F-measure of 0.811 while retaining a fast speed (8 FPS). Besides, our fast version of RCF achieves ODS F-measure of 0.806 with 30 FPS.

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VinVL: Revisiting Visual Representations in Vision-Language Models

Zhang

et al. 2021

598

356

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Depth-Attentional Features for Single-Image Rain Removal

Zhu

et al. 2019

300

309

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Xiaowei Hu

Deeply Supervised Salient Object Detection with Short Connections

Oscar: Object-Semantics Aligned Pre-training for Vision-Language Tasks

Richer Convolutional Features for Edge Detection

VinVL: Revisiting Visual Representations in Vision-Language Models

Depth-Attentional Features for Single-Image Rain Removal

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