Ioannis M. Vandoulakis scite author profile

Ioannis M. Vandoulakis

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5Publications

21Citation Statements Received

42Citation Statements Given

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How they cite others

Affiliations

Hellenic Open University, University of the Aegean, University of Hagen

Publications

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The Web as A Tool For Proving

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2012

Metaphilosophy

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The Web may critically transform the way we understand the activity of proving. The Web as a collaborative medium allows the active participation of people with different backgrounds, interests, viewpoints, and styles. Mathematical formal proofs are inadequate for capturing Web‐based proofs. This article claims that Web provings can be studied as a particular type of Goguen's proof‐events. Web‐based proof‐events have a social component, communication medium, prover‐interpreter interaction, interpretation process, understanding and validation, historical component, and styles. To demonstrate its claim, the article discusses the Kumo and Polymath projects, both of which employ Web‐based communication as part of proving. Web proving is a novel type of proving activity that may have a serious impact on the change in mathematical practices, despite the fact that it is not currently a universally acceptable methodology.

Proofs as Spatio-Temporal Processes

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2014

philosophiascientiae

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Search for mathematical proof in the Web environment as a process of creative collective discovery

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2016

SHS Web Conf.

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Abstract. Although cooperation and collective efforts have always played an important role in the process of scientific discovery, recent technological innovations, such as the Internet, facilitate and encourage cooperation and collective effort to an unprecedented degree. This applies to all fields of science, even mathematics, where the process of mathematical discovery has traditionally been considered as an individual affair. This perspective requires new research on the theoretical level, and reveals the importance of various aspects of the process of scientific discovery in relation to the issues of problem solving, discovery and creativity, which have not been studied sufficiently.

Collective Discovery Events: Web-Based Mathematical Problem-Solving with Codelets

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et al. 2014

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On Mathematical Proving

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2015

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This paper outlines a logical representation of certain aspects of the process of mathematical proving that are important from the point of view of Artificial Intelligence. Our starting-point is the concept of proof-event or proving, introduced by Goguen, instead of the traditional concept of mathematical proof. The reason behind this choice is that in contrast to the traditional static concept of mathematical proof, proof-events are understood as processes, which enables their use in Artificial Intelligence in such contexts, in which problem-solving procedures and strategies are studied. We represent proof-events as problem-centered spatio-temporal processes by means of the language of the calculus of events, which captures adequately certain temporal aspects of proof-events (i.e. that they have history and form sequences of proof-events evolving in time). Further, we suggest a "loose" semantics for the proof-events, by means of Kolmogorov's calculus of problems. Finally, we expose the intented interpretations for our logical model from the fields of automated theoremproving and Web-based collective proving.

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