Ontologybased data management tool for studying Radon concentration

Ontology-based data management tool for studying Radon concentration Félix Fernández-Peña, Alex Maigua-Quinteros, Pilar Urrutia-Urrutia, Diana Coello-Fiallos

Radiation

General View of Proposed Solution • Three layers. • Dynamic data views. • Query API. • Flexible GUI.

Software Architecture

Data Entry User Interface 1. Title of data view. 2. Interactive map component. 3. Text fields for data input. 4. Combobox field automatically generated. 5. Text field for the input of numeric values. 6. Buttons for user interaction.

Data View User Interface 1. Interactive map component. 2. List of visible/hidden properties. 3. Ordering criteria and filters. 4. Tabular data component. 5. Button for navigation to other data views through data relationships. 6. Links to other data views.

Analysis of Results • An ontology-based data management tool for studying Radon concentration was built. • Changes in the user interface do not require changes in the code of the application but in the A-Box of View. Onto. • Three data entities were managed in the space dimension and two other entities were managed in time dimension. • The navigation between data views is dynamic and changeable.

Conclusions • View. Onto is a web ontology that was defined for the formal description of the semantics of data views in different scenarios. • The main contribution of this research relies on the formal definition of the semantic of the presence of radon in the dimensions of space and time. • A dynamic data view generator for the observation of radon measurements was deployed • There was no need of actual software programming but with the proper adjustment and instantiation of the ontology View. Onto

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