# A Computational-Hermeneutic Approach for Conceptual Explicitation

**Authors:** David Fuenmayor, Christoph Benzm\"uller

arXiv: 1906.06582 · 2022-12-12

## TL;DR

This paper introduces a computational hermeneutic method that formalizes natural-language argumentative discourse using higher-order logics, enabling explicit conceptual analysis through iterative, multi-layered reasoning.

## Contribution

It presents a novel, automated approach combining formal logic and argumentative networks for explicit conceptual explication in discourse analysis.

## Key findings

- Operates on networks of structured arguments
- Iterative two-layered formalization process
- Logical theory evolves through inferential adequacy

## Abstract

We present a computer-supported approach for the logical analysis and conceptual explicitation of argumentative discourse. Computational hermeneutics harnesses recent progresses in automated reasoning for higher-order logics and aims at formalizing natural-language argumentative discourse using flexible combinations of expressive non-classical logics. In doing so, it allows us to render explicit the tacit conceptualizations implicit in argumentative discursive practices. Our approach operates on networks of structured arguments and is iterative and two-layered. At one layer we search for logically correct formalizations for each of the individual arguments. At the next layer we select among those correct formalizations the ones which honor the argument's dialectic role, i.e. attacking or supporting other arguments as intended. We operate at these two layers in parallel and continuously rate sentences' formalizations by using, primarily, inferential adequacy criteria. An interpretive, logical theory will thus gradually evolve. This theory is composed of meaning postulates serving as explications for concepts playing a role in the analyzed arguments. Such a recursive, iterative approach to interpretation does justice to the inherent circularity of understanding: the whole is understood compositionally on the basis of its parts, while each part is understood only in the context of the whole (hermeneutic circle). We summarily discuss previous work on exemplary applications of human-in-the-loop computational hermeneutics in metaphysical discourse. We also discuss some of the main challenges involved in fully-automating our approach. By sketching some design ideas and reviewing relevant technologies, we argue for the technological feasibility of a highly-automated computational hermeneutics.

## Full text

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## Figures

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## References

57 references — full list in the complete paper: https://tomesphere.com/paper/1906.06582/full.md

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Source: https://tomesphere.com/paper/1906.06582