Department of Computer and Information Technology, Beijing Jiaotong University, Beijing, China.
IEEE Trans Image Process. 2012 Mar;21(3):1327-38. doi: 10.1109/TIP.2011.2169274. Epub 2011 Sep 23.
This paper addresses the problem of detecting salient areas within natural images. We shall mainly study the problem under unsupervised setting, i.e., saliency detection without learning from labeled images. A solution of multitask sparsity pursuit is proposed to integrate multiple types of features for detecting saliency collaboratively. Given an image described by multiple features, its saliency map is inferred by seeking the consistently sparse elements from the joint decompositions of multiple-feature matrices into pairs of low-rank and sparse matrices. The inference process is formulated as a constrained nuclear norm and as an l(2, 1)-norm minimization problem, which is convex and can be solved efficiently with an augmented Lagrange multiplier method. Compared with previous methods, which usually make use of multiple features by combining the saliency maps obtained from individual features, the proposed method seamlessly integrates multiple features to produce jointly the saliency map with a single inference step and thus produces more accurate and reliable results. In addition to the unsupervised setting, the proposed method can be also generalized to incorporate the top-down priors obtained from supervised environment. Extensive experiments well validate its superiority over other state-of-the-art methods.
本文探讨了自然图像中显著区域检测的问题。我们将主要在无监督设置下研究这个问题,即无需从标记图像中学习来进行显著性检测。提出了一种多任务稀疏性追踪的解决方案,用于协同地集成多种类型的特征来进行显著性检测。对于由多种特征描述的图像,通过从多特征矩阵对的低秩和稀疏矩阵的联合分解中寻找一致稀疏元素,来推断其显著图。推断过程被表述为约束核范数和 l(2,1)-范数最小化问题,这是凸的,可以使用增广拉格朗日乘子法有效地求解。与通常通过组合从单个特征获得的显著图来利用多种特征的先前方法不同,所提出的方法无缝地集成了多种特征,以单个推断步骤共同生成显著图,从而产生更准确和可靠的结果。除了无监督设置之外,所提出的方法还可以推广到结合来自监督环境的自上而下的先验知识。广泛的实验很好地验证了其优于其他最先进方法的优越性。
