When working on intelligent tutor systems designed for mathematics education
and its specificities, an interesting objective is to provide relevant help to
the students by anticipating their next steps. This can only be done by
knowing, beforehand, the possible ways to solve a problem. Hence the need for
an automated theorem prover that provide proofs as they would be written by a
student. To achieve this objective, logic programming is a natural tool due to
the similarity of its reasoning with a mathematical proof by inference. In this
paper, we present the core ideas we used to implement such a prover, from its
encoding in Prolog to the generation of the complete set of proofs. However,
when dealing with educational aspects, there are many challenges to overcome.
We also present the main issues we encountered, as well as the chosen
solutions.Comment: In Proceedings ThEdu'19, arXiv:2002.1189