Alberto Bugarín scite author profile

We present in this paper an application which automatically generates textual short-term weather forecasts for every municipality in Galicia (NW Spain), using the real data provided by the Galician Meteorology Agency (MeteoGalicia). This solution combines in an innovative way computing with perceptions techniques and strategies for linguistic description of data together with a natural language generation (NLG) system. The application, named GALiWeather, extracts relevant information from weather forecast input data and encodes it into intermediate descriptions using linguistic variables and temporal references. These descriptions are later translated into natural language texts by the natural language generation system. The obtained forecast results have been thoroughly validated by an expert meteorologist from MeteoGalicia using a quality assessment methodology which covers two key dimensions of a text: the accuracy of its content and the correctness of its form. Following this validation GALiWeather will be released as a real service offering custom forecasts for a wide public.

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Fuzzy reasoning supported by Petri nets

Bugarín

Barro

1994

IEEE Trans. Fuzzy Syst.

137

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We develop a representational model for the knowledge base (KB) of fuzzy production systems with rule chaining based on the Petri net formalism. The model presents the execution of a KB following a data driven strategy based on the sup-min compositional rule of Inference. In this connection, algorithms characterizing different situations have been described, including the case where the KB is characterized by complete information about all the input variables and the case where it is characterized by ignorance of some of these variables. For this last situation we develop a process of "incremental reasoning"; this process allows the KB to take information about previously unknown values into consideration as soon as such information becomes available. Furthermore, as compared to other solutions, the rule chaining mechanism we introduce is more flexible, and the description of the rules more generic. The com utational complexity of these algorithms is 0 (( + M + N ) R ) for the "complete information" case and O ( ( M + N ) R 2 ) and 0 ( 2 ( M + N ) R 2 ) for the other cases, where R is the number of fuzzy conditional statements of the KB, M and N the maximum number of antecedents and consequents in the rules and C the number of chaining transitions in the KB representation.

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On the role of linguistic descriptions of data in the building of natural language generation systems

Ramos-Soto

Bugarín

Barro

2016

Fuzzy Sets and Systems

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Design of a fuzzy controller in mobile robotics using genetic algorithms

Mucientes

Moreno

Bugarín

et al. 2007

Applied Soft Computing

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