Object Co-detection via Efficient Inference in a Fully-Connected CRF^*

Zeeshan Hayder, Mathieu Salzmann, and Xuming He

Abstract. Object detection has seen a surge of interest in recent years, which has lead to increasingly effective techniques. These techniques, however, still mostly perform detection based on local evidence in the input image. While some progress has been made towards exploiting scene context, the resulting methods typically only consider a single image at a time. Intuitively, however, the information contained jointly in multiple images should help overcoming phenomena such as occlusion and poor resolution. In this paper, we address the co-detection problem that aims to leverage this collective power to achieve object detection simultaneously in all the images of a set. To this end, we formulate object co-detection as inference in a fully-connected CRF whose edges model the similarity between object candidates. We then learn a similarity function that allows us to efficiently perform inference in this fully-connected graph, even in the presence of many object candidates. This is in contrast with existing co-detection techniques that rely on exhaustive or greedy search, and thus do not scale well. Our experiments demonstrate the benefits of our approach on several co-detection datasets.

Keywords: Object co-detection, fully-connected CRFs

^*NICTA is funded by the Australian Government as represented by the Department of Broadband, Communications and the Digital Economy, as well as by the Australian Research Council through the ICT Centre of Excellence program.

LNCS 8691, p. 330 ff.

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