Litcius/Paper detail

DAN-SNR

Liwei Huang, Yutao Ma, Yanbo Liu, Keqing He

2020ACM Transactions on Internet Technology46 citationsDOIOpen Access PDF

Abstract

Next (or successive) point-of-interest (POI) recommendation, which aims to predict where users are likely to go next, has recently emerged as a new research focus of POI recommendation. Most of the previous studies on next POI recommendation attempted to incorporate the spatiotemporal information and sequential patterns of user check-ins into recommendation models to predict the target user's next move. However, few of the next POI recommendation approaches utilized the social influence of each user's friends. In this study, we discuss a new topic of next POI recommendation and present a deep attentive network for social-aware next POI recommendation called DAN-SNR. In particular, the DAN-SNR makes use of the self-attention mechanism instead of the architecture of recurrent neural networks to model sequential influence and social influence in a unified manner. Moreover, we design and implement two parallel channels to capture short-term user preference and long-term user preference as well as social influence, respectively. By leveraging multi-head self-attention, the DAN-SNR can model long-range dependencies between any two historical check-ins efficiently and weigh their contributions to the next destination adaptively. We also carried out a comprehensive evaluation using large-scale real-world datasets collected from two popular location-based social networks, namely, Gowalla and Brightkite. Experimental results indicate that the DAN-SNR outperforms seven competitive baseline approaches regarding recommendation performance and is highly efficient among six neural-network-based methods, four of which utilize the attention mechanism.

Topics & Concepts

Computer scienceBaseline (sea)PreferenceRecommender systemFocus (optics)Artificial intelligenceSocial network (sociolinguistics)ArchitectureInformation retrievalKey (lock)Machine learningData scienceSocial mediaData miningSocial network analysisDeep neural networksMechanism (biology)Artificial neural networkUser modelingHuman–computer interactionWorld Wide WebTopic modelRecommender Systems and TechniquesHuman Mobility and Location-Based AnalysisTransportation and Mobility Innovations