Proceedings of the 5th ACM SIGPLAN International Workshop on Functional Art, Music, Modeling, and Design 2017
DOI: 10.1145/3122938.3122942
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Modelling the way mathematics is actually done

Abstract: Whereas formal mathematical theories are well studied, computers cannot yet adequately represent and reason about mathematical dialogues and other informal texts. To address this gap, we have developed a representation and reasoning strategy that draws on contemporary argumentation theory and classic AI techniques for representing and querying narratives and dialogues. In order to make the structures that these modelling tools produce accessible to computational reasoning, we encode representations in a higher… Show more

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Cited by 6 publications
(6 citation statements)
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“…Researchers have taken an external interest in this too, using the Polymath project (and the related mini-Polymath) to study the social features of collaboration, such as in the work of Martin and Pease (2013) and Martin (2015). They also study and model the social conventions that arose (Barany 2010), the conversational patterns used in the online mathematics (Corneli et. al.…”
Section: A Social Turnmentioning
confidence: 99%
See 1 more Smart Citation
“…Researchers have taken an external interest in this too, using the Polymath project (and the related mini-Polymath) to study the social features of collaboration, such as in the work of Martin and Pease (2013) and Martin (2015). They also study and model the social conventions that arose (Barany 2010), the conversational patterns used in the online mathematics (Corneli et. al.…”
Section: A Social Turnmentioning
confidence: 99%
“…They also study and model the social conventions that arose (Barany 2010), the conversational patterns used in the online mathematics (Corneli et al . 2017), the use of explanation in mathematics (Pease et al . 2019), and the kind of knowledge that is produced by Polymath projects (Allo et al 2013).…”
Section: Conceptions Of Proofsmentioning
confidence: 99%
“…Nevertheless, the authors believe that a confederated, well- We acknowledge the fact that our tetrapod proposal does not incorporate the fact that mathematics is a social process and that for Big Math problems we will need mathematical social machines, i.e., ''an environment comprising humans and technology interacting and producing outputs or action which would not be possible without both parties present'' [5]. We conjecture that the social machine aspect is one that will live quite comfortably on top of tetrapod-shaped mathematical software systems and can indeed not fully function without all of its five aspects interacting well; see [13,30] for a discussion and further pointers to the literature.…”
Section: Summationmentioning
confidence: 99%
“…The reasoning was communicated by a combination of speech and marks on a chalkboard, and is reproduced in Figure 5. This example has been modelled in IATC by Corneli et al (2017b). The problem initially appears difficult to solve without computer algebra system, but a simple algebraic solution is available once the correct strategy is found.…”
Section: Making the Reasoning Explicit In The Solution To A Challengementioning
confidence: 99%
“…As a limited proof of concept showing the plausibility of adding a computational deduction and verification layer on top of IATC representations, Corneli et al (2017b) give a detailed expansion of one step of a mathematical proof using simple rules for transforming the underlying graph structures. It is worth emphasising that the representations of reasoning afforded by language elements in Tables 1 and 2 do not themselves encode the meta-level reasoning associated with such graph transformations.…”
Section: Towards Computable Models Of Mathematical Reasoning Via Iatc...mentioning
confidence: 99%