- From: Matthew Rowe <m.rowe@lancaster.ac.uk>
- Date: Fri, 20 Mar 2015 10:57:59 +0000
- To: IRList@lists.shef.ac.uk, chi-Announcements@acm.org, public-ontolex@w3.org, public-rww@w3.org, public-semweb-lifesci@w3.org, public-vocabs@w3.org, semantic-web@w3.org, public-lod@w3.org, semantic-web@w3.org, mavir-research-bounces@listserv.uned.es, web-semantica-ayuda@es.tldp.org, corpora@uib.no, aisworld@lists.aisnet.org
** apologies for cross-posting ** ==== *Final* Call for Challenge: 2nd Linked Open Data-enabled Recommender Systems Challenge==== Challenge Website: http://sisinflab.poliba.it/events/lod-recsys-challenge-2015 MOTIVATION AND OBJECTIVES People generally need more and more advanced tools that go beyond those implementing the canonical search paradigm for seeking relevant information. A new search paradigm is emerging, where the user's perspective is completely reversed: from finding to being found. Recommender systems may help to support this new perspective, because they have the effect of pushing relevant objects, selected from a large space of possible options, to potentially interested users. To achieve this result, recommendation techniques generally rely on data referring to three kinds of objects: users, items, and their relations. Recent developments in the Semantic Web community offer novel strategies to represent data about users, items and their relations that might improve the current state of the art of recommender systems, in order to move towards a new generation of recommender systems which fully understand the items they deal with. More and more semantic data are published following the Linked Data principles, that enable links to be set up between objects in different data sources, by connecting information in a single global data space: the Web of Data. Today, the Web of Data includes different types of knowledge represented in a homogeneous form: sedimentary one (encyclopedic, cultural, linguistic, common-sense) and real-time one (news, data streams, ...). These data might be useful to interlink diverse information about users, items, and their relations and implement reasoning mechanisms that can support and improve the recommendation process. The primary goal of this challenge is twofold. On the one hand, we want to enforce the link between the Semantic Web and the Recommender Systems communities. On the other hand, we aim to showcase how Linked Open Data and semantic technologies can boost the creation of a new breed of knowledge-enabled and content-based recommender systems. TARGET AUDIENCE The target audience is all of those communities, both academic and industrial, which are interested in personalized information access with a particular emphasis on Linked Open Data. During the last ACM RecSys conference the vast majority of participants were from industry. This is evidence of the actual interest of recommender systems for industrial applications ready to be released in the market. DATA We collected data from Facebook profiles about three distinct domains: movies, books and musical artists. After a process of anonymization we then reconciled the data with DBpedia entities. This data will be made available to train the recommendation algorithms. In order to emphasize the usefulness of content-based data, only "cold users" will be available in the dataset. TASKS - Task 1: Top-N recommendations from unary user feedback - This task deals with the top-N recommendation problem, in which a system is requested to find and recommend a limited set of N items that best match a user profile, instead of correctly predicting the ratings for all available items. In order to favour the proposal of content-based, LOD-enabled recommendation approaches, and limit the use of collaborative filtering approaches, this task aims to generate ranked lists of items for which only unary feedback information (LIKE) is provided. For this task, we will concentrate only on the movie domain. - Task 2: Diversity within recommended item sets - A very interesting aspect of content-based recommender systems, and also of LOD-enabled ones, is providing the opportunity to evaluate the diversity of recommended items in a straightforward manner. This is a very popular topic in content-based recommender systems, which usually suffer from over-specialization. In this task, the evaluation will be made by considering a combination of both accuracy of the recommendation list, and the diversity of items belonging within it. Focusing on recommending musical artists, we will consider diversity with respect to the <http://dbpedia.org/ontology/genre>property. - Task 3: Cross-domain recommendation - This task aims to address a cross-domain recommendation scenario in which user preferences and/or domain knowledge of a source domain are used to recommend items in a different target domain. This may correspond with the following use cases. The first refers to the well known cold-start problem, which hinders the recommendation generation due to the lack of sufficient information about users or items. In a cross-domain setting, a recommender may draw on information acquired from other domains to alleviate such problem, e.g. a user’s favourite movie genres may be derived from her favourite book genres. The second refers to the generation of personalized cross-selling or bundle recommendations for items from multiple domains, e.g. a movie accompanied by a music album similar to the soundtrack of the movie. These relations may not be extracted from rating correlations within a joined movie-music rating matrix. In this task, we will request participants to exploit user preferences and domain knowledge about movies, in order to provide book recommendations. Making this task highly challenging, we will provide the list of books available in the test set, but we will provide little information about the users’ book preferences. Thus, we encourage not (only) to use collaborative filtering strategies based on correlations between movie and book preferences, but to investigate approaches that exploit LOD relating both movies and books domains. JUDGING AND PRIZES After a first round of reviews, the Program Committee and the chairs will select a number of submissions that will have to satisfy the challenge’s requirements, and will have to be presented at the conference. Submissions accepted for presentation will receive constructive reviews from the Program Committee, and will be included in post-proceedings. All accepted submissions will have a slot in a poster session dedicated to the challenge. In addition, the winners will present their work in a special slot of the main program of ESWC’15, and will be invited to submit a chapter to a post-proceedings book published by Springer (Communications in Computer and Information Science series). For each task we will select: * the best performing tool, given to the paper which will get the highest score in the evaluation * the most original approach, selected by the Challenge Program Committee with the reviewing process HOW TO PARTICIPATE We invite the potential participants to subscribe to our mailing list in order to be kept up to date with the latest news related to the challenge. lod-recsys-challenge-2015@googlegroups.com * Make your result submission - Register your group using the registration web form available at http://dee020.poliba.it:8181/eswc2014lodrecsys/signup.html. - Choose one or more tasks among Task1, Task2 and Task3 (see Tasks). - Build your Recommendation System using the training data described in section Dataset. - Evaluate your approach by submitting your results using the evaluation service as described in section Evaluation. - Your final score will be the one computed with respect to the last result submission made before March 25, 2015, 23:59 CET. * Submit your paper The following information has to be provided: - Abstract: no more than 200 words. - Description: It should contain the details of the system, including why the system is innovative, how it uses Semantic Web, which features or functions the system provides, what design choices were made, and what lessons were learned. The description should also summarize how participants have addressed the evaluation tasks and the results evaluation. Papers must be submitted in PDF format, following the style of the Springer’s Lecture Notes in Computer Science (LNCS) series (http://www.springer.com/computer/lncs/lncs+authors), and not exceeding 12 pages in length. All submissions should be provided via EasyChair https://www.easychair.org/conferences/?conf=eswc2015-challenges IMPORTANT DATES * Wednesday, March 25, 2015, 23:59 CET: Paper and Results Submission due * Thursday, April 16, 2015, 23:59 CET: Notification of acceptance and submission of task results * May 31- June 4, 2015: The Challenge takes place at ESWC-15 CHALLENGE CHAIRS * Iván Cantador – Universidad Autónoma de Madrid, Spain * Tommaso Di Noia – Polytechnic University of Bari, Italy * Vito Claudio Ostuni – Pandora Media, Inc. USA * Matthew Rowe – University of Lancaster, UK PROGRAM COMMITTEE * Roi Blanco, Yahoo! Labs, Barcelona, Spain * Pablo Castells, Universidad Autónoma de Madrid, Spain * Miriam Fernández, The Knowledge Media Institute, The Open University, UK * Ignacio Fernández-Tobías, Universidad Autónoma de Madrid, Spain * Frank Hopfgartner, Technische Universität Berlin, Germany * Julia Hoxha, Columbia University, USA * Dietmar Jannach, TU Dortmund University, Germany * Pasquale Lops, University of Bari Aldo Moro, Italy * Valentina Maccatrozzo, VU University Amsterdam, The Netherlands * Alexandre Passant, Clarity.fm, USA * Mariano Rico, Universidad Politécnica de Madrid, Spain * Giovanni Semeraro, University of Bari Aldo Moro, Italy * Manolis Wallace, University of Peloponnese, Greece * Markus Zanker, Alpen-Adria-Universitaet Klagenfurt, Austria TECHNICAL CHAIR * Paolo Tomeo, Polytechnic University of Bari, Italy ESWC CHALLENGE COORDINATORS * Elena Cabrio, INRIA Sophia-Antipolis Méditerranée, France * Milan Stankovic, Sépage & Université Paris-Sorbonne, France -- Thanks Matthew
Received on Friday, 20 March 2015 10:59:27 UTC