Offre en lien avec l’Action/le Réseau : – — –/Doctorants
Laboratoire/Entreprise : IRISA / Université de Rennes 1
Durée : 3ans
Contact : zoltan.miklos@irisa.fr
Date limite de publication : 2022-01-31
Contexte :
There is a large number of publicly available learning resources. Combining these resources and creating potential coherent sequences to achieve a specific learning goal is a challenging task for educators. Identifying resources to complete or complement an existing course also requires a considerable effort. At the same time, teachers and professors are confronted with the task of creating online courses within a very short time, in particular during the Covid sanitary crisis. Making sense of large collections and especially identifying connections between learning resources is challenging and time-consuming.
Sujet :
The objective of the CLARA project, financed by Cominlabs, is to support and assist educators in associating learning resources to learning paths, in particular relative to the designed curricula. We would like to design such methods with the help of various methods from artificial intelligence. Specifically, we will associate various pieces of information to the resources, such as metadata and knowledge graphs. Then we would like to exploit graph matching and graph representation learning [Ham2020] techniques that relate these individual graphs and identify more specific connections between the ressources.
However, the graph representation learning methods are not directly adapted to address the specific problem of linking open educational resources, for the following reasons :
There could be several knowledge graphs that are associated with a specific resource. We could also have different versions of the same knowledge graph.
Besides the knowledge graphs, we can have other metadata that could be exploited.
Most importantly, if we would like to complete an existing path of resources with an additional one, the choice might depend on the entire path and not only one single resource of this path. In other words, in order to predict which resources are related and could be used in a curriculum, we should exploit higher-order features [Bick2021] of the networks and tensors that we will construct. The learned graph representation should also represent the paths of resources.
We propose to work on this specific problem in the thesis. We plan to develop representation learning techniques for higher-order networks that can support path finding methods. There are some recent works in this direction, including [Rossi18], [Saebi21] and [Benson2018]. However, these works do not focus on knowledge graphs. Moreover, prerequisite relations between concepts, if they are known, should also be given special attention.
Profil du candidat :
– Master in computer science
– with good results
– interest in research,
– scientific curiosity
Formation et compétences requises :
– machine learning
– graph representation learning
– knowledge graphs
– programming in Python
– very good command of English
– French is a plus, but not required
Adresse d’emploi :
Univ Rennes CNRS IRISA
Campus universitaire de Beaulieu
263 av Gen Leclerc
35024 Rennes cedex
France
Document attaché : 202111180821_2021 PhD position at IRISA.pdf