@inproceedings{Richard_pta_exab:2022,
title = {Introducing {{Proof Tree Automata}} and {{Proof Tree Graphs}}: {{Extended}} Abstract},
booktitle = {{{SLSS}} 2022 - 11th {{Scandinavian Logic Symposium}}},
author = {Richard, Valentin D.},
year = {2022},
month = jun,
pages = {10--12},
publisher = {{\AA sa Hirvonen and Fernando Vel\'azquez-Quesada}},
address = {{Bergen, Norway}},
abstract = {In structural proof theory, designing and working on large calculi make it difficult to get intuitions about each rule individually and as part of a whole system. We introduce two novel tools to help working on calculi using the approach of graph theory and automata theory. The first tool is a Proof Tree Automaton (PTA): a tree automaton which language is the derivation language of a calculus. The second tool is a graphical representation of a calculus called Proof Tree Graph (PTG). In this directed hypergraph, vertices are sets of terms (e.g. sequents) and hyperarcs are rules. We explore properties of PTA and PTGs and how they relate to each other. We show that we can decompose a PTA as a partial map from a calculus to a traditional tree automaton. We formulate that statement in the theory of refinement systems. Finally, we compare our framework to proof nets and string diagrams.},
copyright = {All rights reserved},
keywords = {Directed hypergraphs,Graphical representation,Refinement systems,Structural proof theory,Term deduction systems,Tree automata},
}