@article { , title = {Venue2Vec: An efficient embedding model for fine-grained user location prediction in geo-social networks}, abstract = {Geo-Social Networks (GSN) significantly improve location-aware capability of services by offering geo-located content based on the huge volumes of data generated in the GSN. The problem of user location prediction based on user-generated data in GSN has been extensively studied. However, existing studies are either concerning predicting users' next check-in location or predicting their future check-in location at a given time with coarse granularity. A unified model that can predict both scenarios with fine granularity is quite rare. Also, due to the heterogeneity of multiple factors associated with both locations and users, how to efficiently incorporate these information still remains challenging. Inspired by the recent success of word embedding in natural language processing, in this paper, we propose a novel embedding model called Venue2Vec which automatically incorporates temporal-spatial context, semantic information, and sequential relations for fine-grained user location prediction. Locations of the same type, and those that are geographically close or often visited successively by users will be situated closer within the embedding space. Based on our proposed Venue2Vec model, we design techniques that allow for predicting a user's next check-in location, and also their future check-in location at a given time. We conduct experiments on three real-world GSN datasets to verify the performance of the proposed model. Experimental results on both tasks show that Venue2Vec model outperforms several state-of-the-art models on various evaluation metrics. Furthermore, we show how the Venue2Vec model can be more time-efficient due to being parallelizable.}, doi = {10.1109/JSYST.2019.2913080}, eissn = {1937-9234}, issn = {1932-8184}, issue = {2}, journal = {IEEE Systems Journal}, pages = {1740-1751}, publicationstatus = {Published}, publisher = {Institute of Electrical and Electronics Engineers}, url = {https://uwe-repository.worktribe.com/output/847009}, volume = {14}, keyword = {Computer Science Research Centre, predictive models, semantics, context modeling, task analysis, data models, computer networks, training, geo-social networks, language model, location embedding, location prediction, random walk}, year = {2020}, author = {Xu, Shuai and Cao, Jiuxin and Legg, Phil and Liu, Bo and Li, Shancang} }