Toward a Robust Diversity-Based Model to Detect Changes of Context

Being able to automatically and quickly understand the user context during a session is a main issue for recommender systems. As a first step toward achieving that goal, we propose a model that observes in real time the diversity brought by each item relatively to a short sequence of consultations, corresponding to the recent user history. Our model has a complexity in constant time, and is generic since it can apply to any type of items within an online service (e.g. profiles, products, music tracks) and any application domain (e-commerce, social network, music streaming), as long as we have partial item descriptions. The observation of the diversity level over time allows us to detect implicit changes. In the long term, we plan to characterize the context, i.e. to find common features among a contiguous sub-sequence of items between two changes of context determined by our model. This will allow us to make context-aware and privacy-preserving recommendations, to explain them to users. As this is an ongoing research, the first step consists here in studying the robustness of our model while detecting changes of context. In order to do so, we use a music corpus of 100 users and more than 210,000 consultations (number of songs played in the global history). We validate the relevancy of our detections by finding connections between changes of context and events, such as ends of session. Of course, these events are a subset of the possible changes of context, since there might be several contexts within a session. We altered the quality of our corpus in several manners, so as to test the performances of our model when confronted with sparsity and different types of items. The results show that our model is robust and constitutes a promising approach.Comment: 27th IEEE International Conference on Tools with Artificial Intelligence (ICTAI 2015), Nov 2015, Vietri sul Mare, Ital

A methodology for contextual recommendation using artificial neural networks

“A thesis submitted to the University of Bedfordshire, in partial fulfilment of the requirements for the degree of Doctor of Philosophy”.Recommender systems are an advanced form of software applications, more specifically decision-support systems, that efficiently assist the users in finding items of their interest. Recommender systems have been applied to many domains from music to e-commerce, movies to software services delivery and tourism to news by exploiting available information to predict and provide recommendations to end user. The suggestions generated by recommender systems tend to narrow down the list of items which a user may overlook due to the huge variety of similar items or users’ lack of experience in the particular domain of interest. While the performance of traditional recommender systems, which rely on relatively simpler information such as content and users’ filters, is widely accepted, their predictive capability perfomrs poorly when local context of the user and situated actions have significant role in the final decision. Therefore, acceptance and incorporation of context of the user as a significant feature and development of recommender systems utilising the premise becomes an active area of research requiring further investigation of the underlying algorithms and methodology. This thesis focuses on categorisation of contextual and non-contextual features within the domain of context-aware recommender system and their respective evaluation. Further, application of the Multilayer Perceptron Model (MLP) for generating predictions and ratings from the contextual and non-contextual features for contextual recommendations is presented with support from relevant literature and empirical evaluation. An evaluation of specifically employing artificial neural networks (ANNs) in the proposed methodology is also presented. The work emphasizes on both algorithms and methodology with three points of consideration:\ud contextual features and ratings of particular items/movies are exploited in several representations to improve the accuracy of recommendation process using artificial neural networks (ANNs), context features are combined with user-features to further improve the accuracy of a context-aware recommender system and lastly, a combination of the item/movie features are investigated within the recommendation process. The proposed approach is evaluated on the LDOS-CoMoDa dataset and the results are compared with state-of-the-art approaches from relevant published literature

Parsimonious and Adaptive Contextual Information Acquisition in Recommender Systems

Also published online by CEUR Workshop Proceedings (CEUR-WS.org, ISSN 1613-0073) Context-Aware Recommender System (CARS) models are trained on datasets of context-dependent user preferences (ratings and context information). Since the number of context-dependent preferences increases exponentially with the number of contextual factors, and certain contextual in- formation is still hard to acquire automatically (e.g., the user's mood or for whom the user is buying the searched item) it is fundamental to identify and acquire those factors that truly in uence the user preferences and the ratings. In particular, this ensures that (i) the user e ort in specifying contextual information is kept to a minimum, and (ii) the system's performance is not negatively impacted by irrele- vant contextual information. In this paper, we propose a novel method which, unlike existing ones, directly estimates the impact of context on rating predictions and adaptively identi es the contextual factors that are deemed to be useful to be elicited from the users. Our experimental evaluation shows that it compares favourably to various state-of-the-art context selection methods

Considering temporal aspects in recommender systems: a survey

Under embargo until: 2023-07-04The widespread use of temporal aspects in user modeling indicates their importance, and their consideration showed to be highly effective in various domains related to user modeling, especially in recommender systems. Still, past and ongoing research, spread over several decades, provided multiple ad-hoc solutions, but no common understanding of the issue. There is no standardization and there is often little commonality in considering temporal aspects in different applications. This may ultimately lead to the problem that application developers define ad-hoc solutions for their problems at hand, sometimes missing or neglecting aspects that proved to be effective in similar cases. Therefore, a comprehensive survey of the consideration of temporal aspects in recommender systems is required. In this work, we provide an overview of various time-related aspects, categorize existing research, present a temporal abstraction and point to gaps that require future research. We anticipate this survey will become a reference point for researchers and practitioners alike when considering the potential application of temporal aspects in their personalized applications.acceptedVersio

Using contextual information to understand searching and browsing behavior

There is great imbalance in the richness of information on the web and the succinctness and poverty of search requests of web users, making their queries only a partial description of the underlying complex information needs. Finding ways to better leverage contextual information and make search context-aware holds the promise to dramatically improve the search experience of users. We conducted a series of studies to discover, model and utilize contextual information in order to understand and improve users' searching and browsing behavior on the web. Our results capture important aspects of context under the realistic conditions of different online search services, aiming to ensure that our scientific insights and solutions transfer to the operational settings of real world applications

A personality aware recommendation system

Les systèmes de recommandation conversationnels (CRSs) sont des systèmes qui fournissent des recommandations personnalisées par le biais d’une session de dialogue en langage naturel avec les utilisateurs. Contrairement aux systèmes de recommandation traditionnels qui ne prennent comme vérité de base que les préférences anciennes des utilisateurs, les CRS impliquent aussi les préférences actuelles des utilisateurs durant la conversation. Des recherches récentes montrent que la compréhension de la signification contextuelle des préférences des utilisateurs et des dialogues peut améliorer de manière significative les performances du système de recommandation. Des chercheurs ont également montré un lien fort entre les traits de personnalité des utilisateurs et les systèmes de recommandation. La personnalité et les préférences sont des variables essentielles en sciences sociales. Elles décrivent les différences entre les personnes, que ce soit au niveau individuel ou collectif. Les approches récentes de recommandation basées sur la personnalité sont des systèmes non conversationnels. Par conséquent, il est extrêmement important de détecter et d’utiliser les traits de personnalité des individus dans les systèmes conversationnels afin d’assurer une performance de recommandation et de dialogue plus personnalisée. Pour ce faire, ce travail propose un système de recommandation conversationnel sensible à la personnalité qui est basé sur des modules qui assurent une session de dialogue et recommandation personnalisée en utilisant les traits de personnalité des utilisateurs. Nous proposons également une nouvelle approche de détection de la personnalité, qui est un modèle de langage spécifique au contexte pour détecter les traits des individus en utilisant leurs données publiées sur les réseaux sociaux. Les résultats montrent que notre système proposé a surpassé les approches existantes dans différentes mesures.A Conversational Recommendation System (CRS) is a system that provides personalized recommendations through a session of natural language dialogue turns with users. Unlike traditional one-shot recommendation systems, which only assume the user’s previous preferences as the ground truth, CRS uses both previous and current user preferences. Recent research shows that understanding the contextual meaning of user preferences and dialogue turns can significantly improve recommendation performance. It also shows a strong link between users’ personality traits and recommendation systems. Personality and preferences are essential variables in computational sociology and social science. They describe the differences between people, both at the individual and collective level. Recent personality-based recommendation approaches are traditional one-shot systems, or “non conversational systems”. Therefore, there is a significant need to detect and employ individuals’ personality traits within the CRS paradigm to ensure a better and more personalized dialogue recommendation performance. Driven by the aforementioned facts, this study proposes a modularized, personality- aware CRS that ensures a personalized dialogue recommendation session using the users’ personality traits. We also propose a novel personality detection approach, which is a context-specific language model for detecting individuals’ personality traits using their social media data. The goal is to create a personality-aware and topic-guided CRS model that performs better than the standard CRS models. Experimental results show that our personality-aware conversation recommendation system has outperformed state-of-the-art approaches in different considered metrics on the topic-guided conversation recommendation dataset

From Fingerprint to Footprint: Using Point of Interest (POI) Recommendation System in Marketing Applications

Abstract. Companies should be willing to adopt new technologies and business models to be able to stay competitive in the changing world, both regionally and globally. However, the US forest sector industry, including wood furniture sector seems to be lagging when it comes to implementing digital technologies. This study proposes a design of Point of Interest (POI) recommendation system to enhance the marketing practices to promote wood furniture stores. We produced a personal recommendation design utilising K-Means+ clustering, a combination between K-Means algorithm for spatial data clustering and Davies-Bouldin Index (DBI) methods to determine the optimal K value. This design can assist mobile users who are potential customers to find wood furniture store locations based on other users’ preferences. Keywords:  Digitalisation; location-based social networks; user-based collaborative filtering; K-Means+ clustering; DBI metho