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Dario Collavini

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Address: Dairago, Lombardy, Italy

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Vrije Universiteit Amsterdam

María Bermúdez-edo

University of Surrey

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Patrik Schneider

Tu Wien

University of Southampton

Aalto University

Alessandra Mileo

National University of Ireland Galway

Efstratios Kontopoulos

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Papers by Dario Collavini

Efficient Temporal Reasoning on Streams of Events with DOTR

The Semantic Web

Many ICT applications need to make sense of large volumes of streaming data to detect situations ... more Many ICT applications need to make sense of large volumes of streaming data to detect situations of interest and enable timely reactions. The Stream Reasoning (SR) domain aims to combine the performance of stream/event processing and the reasoning expressiveness of knowledge representation systems by adopting Semantic Web standards to represent streaming elements. In this paper, we argue that the mainstream SR model is not flexible enough to properly express the temporal relations common in many applications. We show that the model can miss relevant information and lead to inconsistent derivations. Moving from these premises, we introduce a novel SR model that provides expressive ontological and temporal reasoning by neatly decoupling their scope to avoid information losses and inconsistencies. We implement the model in the DOTR system that defines ontological reasoning using Datalog rules and temporal reasoning using the TESLA Complex Event Processing language, which builds on metric temporal logic. We demonstrate the expressiveness of our model through various examples and benchmarks, and we show that DOTR outperforms state-of-the-art SR tools, processing data with millisecond latency.

Efficient Temporal Reasoning on Streams of Events with DOTR

Lecture Notes in Computer Science, 2018

Many ICT applications need to make sense of large volumes of streaming data to detect situations ... more Many ICT applications need to make sense of large volumes of streaming data to detect situations of interest and enable timely reactions. The Stream Reasoning (SR) domain aims to combine the performance of stream/event processing and the reasoning expressiveness of knowledge representation systems by adopting Semantic Web standards to represent streaming elements. In this paper, we argue that the mainstream SR model is not flexible enough to properly express the temporal relations common in many applications. We show that the model can miss relevant information and lead to inconsistent derivations. Moving from these premises, we introduce a novel SR model that provides expressive ontological and temporal reasoning by neatly decoupling their scope to avoid information losses and inconsistencies. We implement the model in the DOTR system that defines ontological reasoning using Datalog rules and temporal reasoning using the TESLA Complex Event Processing language, which builds on metric temporal logic. We demonstrate the expressiveness of our model through various examples and benchmarks, and we show that DOTR outperforms state-of-the-art SR tools, processing data with millisecond latency.

Efficient Temporal Reasoning on Streams of Events with DOTR

The Semantic Web

Many ICT applications need to make sense of large volumes of streaming data to detect situations ... more Many ICT applications need to make sense of large volumes of streaming data to detect situations of interest and enable timely reactions. The Stream Reasoning (SR) domain aims to combine the performance of stream/event processing and the reasoning expressiveness of knowledge representation systems by adopting Semantic Web standards to represent streaming elements. In this paper, we argue that the mainstream SR model is not flexible enough to properly express the temporal relations common in many applications. We show that the model can miss relevant information and lead to inconsistent derivations. Moving from these premises, we introduce a novel SR model that provides expressive ontological and temporal reasoning by neatly decoupling their scope to avoid information losses and inconsistencies. We implement the model in the DOTR system that defines ontological reasoning using Datalog rules and temporal reasoning using the TESLA Complex Event Processing language, which builds on metric temporal logic. We demonstrate the expressiveness of our model through various examples and benchmarks, and we show that DOTR outperforms state-of-the-art SR tools, processing data with millisecond latency.

Efficient Temporal Reasoning on Streams of Events with DOTR

Lecture Notes in Computer Science, 2018

Many ICT applications need to make sense of large volumes of streaming data to detect situations ... more Many ICT applications need to make sense of large volumes of streaming data to detect situations of interest and enable timely reactions. The Stream Reasoning (SR) domain aims to combine the performance of stream/event processing and the reasoning expressiveness of knowledge representation systems by adopting Semantic Web standards to represent streaming elements. In this paper, we argue that the mainstream SR model is not flexible enough to properly express the temporal relations common in many applications. We show that the model can miss relevant information and lead to inconsistent derivations. Moving from these premises, we introduce a novel SR model that provides expressive ontological and temporal reasoning by neatly decoupling their scope to avoid information losses and inconsistencies. We implement the model in the DOTR system that defines ontological reasoning using Datalog rules and temporal reasoning using the TESLA Complex Event Processing language, which builds on metric temporal logic. We demonstrate the expressiveness of our model through various examples and benchmarks, and we show that DOTR outperforms state-of-the-art SR tools, processing data with millisecond latency.