Semantic Correspondence in the Wild

Semantic correspondence estimation where the object instances depicted are deformed extensively from one instance to the next is a challenging problem in computer vision that has received much attention. Unfortunately, all existing approaches require prior knowledge of the object classes which are present in the image environment. This is an unwanted restriction as it can prevent the establishment of semantic correspondence across object classes in wild conditions when it is uncertain which classes will be of interest. In contrast, in this paper we formulate the semantic correspondence estimation task as a key point detection process in which image-to-class classification and image-to-image correspondence are solved simultaneously. Identifying object classes within the same framework to establish correspondence, increases this approach's applicability in real world scenarios. The use of object regions in the process also enhances the accuracy while constraining the search space, thus improving overall efficiency. This new approach is compared with the state-of-the-art on publicly available datasets to validate its capability for improved semantic correspondence estimation in wild conditions.