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Abstract:
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In this talk we present a dynamic matrix factor model with a regime switching factor process under a hierarchical regime structure. It is designed to model and analyze sequences of aligned video images of mouse moving in a bucket at 30ms per frame. The images are presented by 80 by 80 matrices. A matrix factor model is applied for reducing the observed image sequence to a smaller matrix factor process. The factor process is then modelled with a regime switching matrix AR model, where the regimes are controlled by a three-layer motion decision structure: basic motion module, motion motif, and action. Each basic module (similar to the alphabets in text) is uniquely defined by the parameter set in the Matrix AR model, a motion motif (similar to words) consists of a small number of modules with a Markovian transition matrix, and action (similar to a sentence) is a sequence of motifs. Based on the observed images, we will identify and estimate the models under a Bayesian framework. It is used to detect abnormal motion behavior of diseased mouse.
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