A major challenge of ubiquitous computing resides in the acquisition and modelling of rich and heterogeneous context data, among which, ongoing human activities at different degrees of granularity. In a previous work, we advocated the use of probabilistic description logics (DLs) in a multilevel activity recognition framework. In this paper, we present an in-depth study of activity modeling and reasoning within that framework, as well as an experimental evaluation with a large real-world dataset. Our solution allows us to cope with the uncertain nature of ontological descriptions of activities, while exploiting the expressive power and inference tools of the OWL 2 language. Targeting a large dataset of real human activities, we developed a probabilistic ontology modeling nearly 150 activities and actions of daily living. Experiments with a prototype implementation of our framework confirm the viability of our solution.
A probabilistic ontological framework for the recognition of multilevel human activities / R. Helaoui, D. Riboni, H. Stuckenschmidt - In: UbiComp '13 : the 2013 ACM international joint conference on pervasive and ubiquitous computing : Zurich, Switzerland, september 08-12, 2013 : proceedingsNew York : Association for computing machinery, 2013. - ISBN 9781450317702. - pp. 345-354 (( convegno ACM International Joint Conference on Pervasive and Ubiquitous Computing (UbiComp) tenutosi a Zurich nel 2013 [10.1145/2493432.2493501].
A probabilistic ontological framework for the recognition of multilevel human activities
D. RiboniSecondo
;
2013
Abstract
A major challenge of ubiquitous computing resides in the acquisition and modelling of rich and heterogeneous context data, among which, ongoing human activities at different degrees of granularity. In a previous work, we advocated the use of probabilistic description logics (DLs) in a multilevel activity recognition framework. In this paper, we present an in-depth study of activity modeling and reasoning within that framework, as well as an experimental evaluation with a large real-world dataset. Our solution allows us to cope with the uncertain nature of ontological descriptions of activities, while exploiting the expressive power and inference tools of the OWL 2 language. Targeting a large dataset of real human activities, we developed a probabilistic ontology modeling nearly 150 activities and actions of daily living. Experiments with a prototype implementation of our framework confirm the viability of our solution.
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