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In this paper we address the issue of photo galleries synchronization, where pictures related to the same event are collected by different users. Existing solutions to address the problem are usually based on unrealistic assumptions, like time consistency across photo galleries, and often heavily rely on heuristics, limiting therefore the applicability to real-world scenarios. We propose a solution that achieves better generalization performance for the synchronization task compared to the available literature. The method is characterized by three stages: at first, deep convolutional neural network features are used to assess the visual similarity among the photos; then, pairs of similar photos are detected across different galleries and used to construct a graph; eventually, a probabilistic graphical model is used to estimate the temporal offset of each pair of galleries, by traversing the minimum spanning tree extracted from this graph. The experimental evaluation is conducted on four publicly available datasets covering different types of events, demonstrating the strength of our proposed method. A thorough discussion of the obtained results is provided for a critical assessment of the quality in synchronization.
ACCEPTED to IEEE Transactions on Multimedia
FOS: Computer and information sciences, Weighted Graph, Computer Vision and Pattern Recognition (cs.CV), Multimodal, Events, Markov Networks, Weighted Graph, Multi-modal, Multimedia Synchronization, Events, Multimedia Synchronization, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Multimedia, Markov Networks, Multimedia (cs.MM)
FOS: Computer and information sciences, Weighted Graph, Computer Vision and Pattern Recognition (cs.CV), Multimodal, Events, Markov Networks, Weighted Graph, Multi-modal, Multimedia Synchronization, Events, Multimedia Synchronization, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Multimedia, Markov Networks, Multimedia (cs.MM)
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