AUC_shuffled.m function [score,tp,fp] = AUC_shuffled(saliencyMap, fixationMap, otherMap, Nsplits, stepSize, toPlot) % saliencyMap is the saliency map % fixationMap is the human fixation map (binary matrix) % otherMap is a binary fixation map (like fi
1. 早期C. Koch与S. Ullman的研究工作. 他们提出了非常有影响力的生物启发模型. C. Koch and S. Ullman . Shifts in selective visual attention: Towards the underlying neural circuitry. Human Neurobiology, 4(4):219-227, 1985. C. Koch and T. Poggio. Predicting the Visual World: Silenc
<Salient Object Detection: A Survey>作者:Ali Borji.Ming-Ming Cheng.Huaizu Jiang and Jia Li 基本按照文章中文献出现的顺序. 一.L. Itti, C. Koch, and E. Niebur, “A model of saliency-based visual attention for rapid scene analysis,” IEEE TPAMI, 1998. 一个用于快速场景分析的基于显著性的视觉注
calcNSSscore.m function [ score ] = calcNSSscore( salMap, eyeMap ) %calcNSSscore Calculate NSS score of a salmap % Usage: [score] = calcNSSscore ( salmap, eyemap ) % % score : an array of score of each eye fixation % salmap : saliency map. will be re
步骤1:先定义KLdiv函数: function score = KLdiv(saliencyMap, fixationMap) % saliencyMap is the saliency map % fixationMap is the human fixation map map1 = im2double(imresize(saliencyMap, size(fixationMap))); map2 = im2double(fixationMap); % make sure map1 and
laviewpbt 2014.8.4 编辑 Email:laviewpbt@sina.com QQ:33184777 最近闲来蛋痛,看了一些显著性检测的文章,只是简单的看看,并没有深入的研究,以下将研究的一些收获和经验共享. 先从最简单的最容易实现的算法说起吧: 1. LC算法 参考论文:Visual Attention Detection in Video Sequences Using Spatiotemporal Cues. Yun Zhai and Mubarak Shah. P