Air quality and traffic monitoring and prediction are critical problems in urban areas. Therefore, in the context of smart cities, many relevant conceptual models and ontologies have already been proposed. However, the lack of standardized solutions boost development costs and hinder data integration between different cities and with other application domains. This paper proposes a classification of existing models and ontologies related to Earth observation and modeling and smart cities in four levels of abstraction, which range from completely general-purpose frameworks to application-specific solutions. Based on such classification and requirements extracted from a comprehensive set of state-of-the-art applications, TAQE, a new data modeling framework for air quality and traffic data, is defined. The effectiveness of TAQE is evaluated both by comparing its expressiveness with the state-of-the-art of the same application domain and by its application in the ``TRAFAIR -- Understanding traffic flows to improve air quality" EU project.
TAQE: A Data Modeling Framework for Traffic and Air Quality Applications in Smart Cities / Martínez, David; Po, Laura; Trillo Lado, Raquel; Viqueira, José R. R.. - 13403:(2022), pp. 25-40. (Intervento presentato al convegno 27th International Conference on Conceptual Structures (ICCS2022) tenutosi a Münster, Alemania nel 12-14 September, 2022) [10.1007/978-3-031-16663-1_3].
TAQE: A Data Modeling Framework for Traffic and Air Quality Applications in Smart Cities
Laura Po;
2022
Abstract
Air quality and traffic monitoring and prediction are critical problems in urban areas. Therefore, in the context of smart cities, many relevant conceptual models and ontologies have already been proposed. However, the lack of standardized solutions boost development costs and hinder data integration between different cities and with other application domains. This paper proposes a classification of existing models and ontologies related to Earth observation and modeling and smart cities in four levels of abstraction, which range from completely general-purpose frameworks to application-specific solutions. Based on such classification and requirements extracted from a comprehensive set of state-of-the-art applications, TAQE, a new data modeling framework for air quality and traffic data, is defined. The effectiveness of TAQE is evaluated both by comparing its expressiveness with the state-of-the-art of the same application domain and by its application in the ``TRAFAIR -- Understanding traffic flows to improve air quality" EU project.
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