Weighted finite automatas using spectral methods for computer vision

There are many possible ways to model the machine or model that generates a set of sequences, Weighted Finite Automatas (WFAs) have been demonstrated to be a powerful tool in this regard by the Natural Language Processing Community. Spectral techniques of recovering WFAs from empirically constructed...

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Online Access:http://hdl.handle.net/2047/D20211601
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Summary:There are many possible ways to model the machine or model that generates a set of sequences, Weighted Finite Automatas (WFAs) have been demonstrated to be a powerful tool in this regard by the Natural Language Processing Community. Spectral techniques of recovering WFAs from empirically constructed hankel matrices have also been demonstrated to work very well, with theoretical backing, and thus make the task of recovering the underlying machine very much possible. Our focus here is an attempt to port WFAs and the spectral recovery techniques to the field of Computer Vision, implementing every technique from scratch to gain more in depth understanding. More specifically we look at activity videos (simple and complex) as string sequences, where the goal is to then recover the underlying machines that generate similar activities. Different features are used to convert the videos into strings, spectral methods are then applied to demonstrate viability of WFAs in tasks such as Action Classification on multiple datasets. The results are encouraging but indicate a further refinement of the approach and more data is needed.