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Specialized Mappings Architecture with Applications to Vision-based Estimation of Articulated Body Pose

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dc.contributor.author Rosales-del-Moral, Rómer E. en_US
dc.date.accessioned 2011-10-20T04:42:41Z
dc.date.available 2011-10-20T04:42:41Z
dc.date.issued 2002 en_US
dc.identifier.uri http://hdl.handle.net/2144/1648
dc.description.abstract A fundamental task of vision systems is to infer the state of the world given some form of visual observations. From a computational perspective, this often involves facing an ill-posed problem; e.g., information is lost via projection of the 3D world into a 2D image. Solution of an ill-posed problem requires additional information, usually provided as a model of the underlying process. It is important that the model be both computationally feasible as well as theoretically well-founded. In this thesis, a probabilistic, nonlinear supervised computational learning model is proposed: the Specialized Mappings Architecture (SMA). The SMA framework is demonstrated in a computer vision system that can estimate the articulated pose parameters of a human body or human hands, given images obtained via one or more uncalibrated cameras. The SMA consists of several specialized forward mapping functions that are estimated automatically from training data, and a possibly known feedback function. Each specialized function maps certain domains of the input space (e.g., image features) onto the output space (e.g., articulated body parameters). A probabilistic model for the architecture is first formalized. Solutions to key algorithmic problems are then derived: simultaneous learning of the specialized domains along with the mapping functions, as well as performing inference given inputs and a feedback function. The SMA employs a variant of the Expectation-Maximization algorithm and approximate inference. The approach allows the use of alternative conditional independence assumptions for learning and inference, which are derived from a forward model and a feedback model. Experimental validation of the proposed approach is conducted in the task of estimating articulated body pose from image silhouettes. Accuracy and stability of the SMA framework is tested using artificial data sets, as well as synthetic and real video sequences of human bodies and hands. en_US
dc.language.iso en_US en_US
dc.publisher Boston University Computer Science Department en_US
dc.relation.ispartofseries BUCS Technical Reports;BUCS-TR-2002-001 en_US
dc.title Specialized Mappings Architecture with Applications to Vision-based Estimation of Articulated Body Pose en_US
dc.type Technical Report en_US
etd.degree.name Doctor of Philosophy
etd.degree.level doctoral
etd.degree.discipline Computer Science
etd.degree.grantor Boston University


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