Bibtex de la publication

@Article{ PiMa2011.1,
author = {Picard, Celia and Matthes, Ralph},
title = "{Coinductive Graph Representation : the Problem of Embedded Lists}",
journal = {Electronic Communications of the EASST, Selected Revised Papers from the Third International Workshop on Graph Computation Models (GCM 2010)},
publisher = {Electronic Communications of the EASST},
address = {http://eceasst.cs.tu-berlin.de/},
year = {2011},
month = {septembre},
volume = {39},
pages = {(on line)},
language = {anglais},
URL = {http://journal.ub.tu-berlin.de/eceasst/article/view/649},
keywords = {coinduction/corecursion, guardedness, theorem proving, dependent types, metamodels},
abstract = {When trying to obtain formally certified model transformations, one may want to represent models as graphs and graphs as greatest fixed points. To do so, one is rather naturally led to define co-inductive types that use lists (to represent a finite but unbounded number of children of internal nodes). These concepts are rather well supported in the proof assistant Coq. However, their use in our intended applications may cause problems since the co-recursive call in the type definition occurs in the list parameter. When defining co-recursive functions on such structures, one will face guardedness issues, and in fact, the syntactic criterion applied by the Coq system is too rigid here.

We offer a solution using dependent types to overcome the guardedness issues that arise in our graph transformations. We also give examples of further properties and results, among which finiteness of represented graphs. All of this has been fully formalized in Coq.}
}