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Nicolaou MA, Pavlovic V, Pantic M. Dynamic Probabilistic CCA for Analysis of Affective Behavior and Fusion of Continuous Annotations. IEEE Trans Pattern Anal Mach Intell. 2014;36(7):1299-311doi: 10.1109/TPAMI.2014.16.
Nicolaou, M. A., Pavlovic, V., & Pantic, M. (2014). Dynamic Probabilistic CCA for Analysis of Affective Behavior and Fusion of Continuous Annotations. IEEE transactions on pattern analysis and machine intelligence, 36(7), 1299-311. https://doi.org/10.1109/TPAMI.2014.16
Nicolaou, Mihalis A, et al. "Dynamic Probabilistic CCA for Analysis of Affective Behavior and Fusion of Continuous Annotations." IEEE transactions on pattern analysis and machine intelligence vol. 36,7 (2014): 1299-311. doi: https://doi.org/10.1109/TPAMI.2014.16
Nicolaou MA, Pavlovic V, Pantic M. Dynamic Probabilistic CCA for Analysis of Affective Behavior and Fusion of Continuous Annotations. IEEE Trans Pattern Anal Mach Intell. 2014 Jul;36(7):1299-311. doi: 10.1109/TPAMI.2014.16. PMID: 26353304.
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IEEE Trans Pattern Anal Mach Intell. 2014 Jul;36(7):1299-311. doi: 10.1109/TPAMI.2014.16.

Dynamic Probabilistic CCA for Analysis of Affective Behavior and Fusion of Continuous Annotations.

IEEE transactions on pattern analysis and machine intelligence

Mihalis A Nicolaou, Vladimir Pavlovic, Maja Pantic

PMID: 26353304 DOI: 10.1109/TPAMI.2014.16

Abstract

Fusing multiple continuous expert annotations is a crucial problem in machine learning and computer vision, particularly when dealing with uncertain and subjective tasks related to affective behavior. Inspired by the concept of inferring shared and individual latent spaces in Probabilistic Canonical Correlation Analysis (PCCA), we propose a novel, generative model that discovers temporal dependencies on the shared/individual spaces (Dynamic Probabilistic CCA, DPCCA). In order to accommodate for temporal lags, which are prominent amongst continuous annotations, we further introduce a latent warping process, leading to the DPCCA with Time Warpings (DPCTW) model. Finally, we propose two supervised variants of DPCCA/DPCTW which incorporate inputs (i.e., visual or audio features), both in a generative (SG-DPCCA) and discriminative manner (SD-DPCCA). We show that the resulting family of models (i) can be used as a unifying framework for solving the problems of temporal alignment and fusion of multiple annotations in time, (ii) can automatically rank and filter annotations based on latent posteriors or other model statistics, and (iii) that by incorporating dynamics, modeling annotation-specific biases, noise estimation, time warping and supervision, DPCTW outperforms state-of-the-art methods for both the aggregation of multiple, yet imperfect expert annotations as well as the alignment of affective behavior.

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