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Effective Context-Aware Recommendations Based on Context Weighting Using Genetic Algorithm and Alleviating Data Sparsity

Sonal Linda, Sonajharia Minz, K. K. Bharadwaj

2020Applied Artificial Intelligence20 citationsDOI

Abstract

Context-aware collaborative filtering (CACF) is an effective approach for adapting recommendations under users’ specific contextual situations and aims to improve predictive accuracy for Context-aware recommender systems (CARSs). Incorporating context in recommender systems (RSs) considering the equal importance to all contextual dimensions is not appropriate for seeking an intelligent and useful recommendation. In this paper, we propose a Real-coded Genetic Algorithm (RCGA) based CARS framework that exploits contextual pre-filtering and contextual modeling paradigms into CACF with appropriate context feature weights for enhancing accuracy as well as the diversity of the recommendation list. Further to alleviate the data sparsity, an effective missing value prediction (EMVP) algorithm is applied into proposed framework. The accuracy based on RCGA is compared with other two schemes: Support Vector Machine (SVM) and Particle Swarm Optimization (PSO), and RCGA has shown better results. Experimental results based on real-world datasets have clearly established the effectiveness of our proposed CARS schemes.

Topics & Concepts

Computer scienceCollaborative filteringContext (archaeology)Recommender systemSupport vector machineGenetic algorithmMachine learningRSSParticle swarm optimizationWeightingArtificial intelligenceData miningExploitFeature (linguistics)Computer securityLinguisticsPhilosophyOperating systemMedicineRadiologyPaleontologyBiologyRecommender Systems and TechniquesAdvanced Wireless Network OptimizationCaching and Content Delivery
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