Structure-Measure: A New Way to Evaluate Foreground Maps
Deng-Ping Fan,Ming-Ming Cheng,Yun Liu,Tao Li,Ali Borji +4 more
- pp 4558-4567
TLDR
In this paper, the structural similarity measure (Structure-measure) is proposed to evaluate non-binary foreground maps, which simultaneously evaluates region-aware and object-aware structural similarity between a saliency map and a ground-truth map.Abstract:
Foreground map evaluation is crucial for gauging the progress of object segmentation algorithms, in particular in the field of salient object detection where the purpose is to accurately detect and segment the most salient object in a scene. Several widely-used measures such as Area Under the Curve (AUC), Average Precision (AP) and the recently proposed F W/B (Fbw) have been used to evaluate the similarity between a non-binary saliency map (SM) and a ground-truth (GT) map. These measures are based on pixel-wise errors and often ignore the structural similarities. Behavioral vision studies, however, have shown that the human visual system is highly sensitive to structures in scenes. Here, we propose a novel, efficient, and easy to calculate measure known as structural similarity measure (Structure-measure) to evaluate non-binary foreground maps. Our new measure simultaneously evaluates region-aware and object-aware structural similarity between a SM and a GT map. We demonstrate superiority of our measure over existing ones using 5 meta-measures on 5 benchmark datasets.read more
Citations
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Deeply Supervised Salient Object Detection with Short Connections
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EGNet: Edge Guidance Network for Salient Object Detection
TL;DR: In this article, an edge guidance network (EGNet) is proposed for salient object detection with three steps to simultaneously model these two kinds of complementary information in a single network, which can help locate salient objects especially their boundaries more accurately.
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Progressive Attention Guided Recurrent Network for Salient Object Detection
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