Abstract
The focus of point-of-interest recommendation techniques is to suggest a venue to a given user that would match the users’ interests and is likely to be adopted by the user. Given the multitude of the available venues and the sparsity of user check-ins, the problem of recommending venues has shown to be a difficult task. Existing literature has already explored various types of features such as geographical distribution, social structure and temporal behavioral patterns to make a recommendation. In this thesis, we show how a comprehensive set of user and venue related information can be methodically incorporated into a heterogeneous graph representation based on which the problem of venue recommendation can be efficiently formulated as an instance of the heterogeneous link prediction problem on the graph and we propose a new set of features derived based on the neural embeddings of venues and users. We additionally show how the neural embeddings for users and venues can be jointly learnt based on the prior check-in sequence of users and then be used to define a set of new features. We have also used a new proposed heterogeneous graph similarity search framework to find similarity between users and venues using our graph. These features are integrated into a feature-based matrix factorization model. Our experiments show that the features defined over the user and venue embeddings are effective for venue recommendation and outperform existing state of the art methods.
Highlights
1.1 BackgroundWith a significant number of users, Location-Based Social Networks (LBSN) such as Facebook Places, Yelp, and Foursquare are starting to be well known as a result of their capability to share location related information
We take a different perspective on the problem of Point-of-Interest recommendation by formalizing user LBSN information in the form of a heterogeneous graph, and we propose a new set of features based on the neural embedding of users and venues
We have systematically shown how various types of information can be incorporated into a heterogeneous graph based on which distance metrics between nodes can be employed as features to learn ranking classifiers
Summary
With a significant number of users, Location-Based Social Networks (LBSN) such as Facebook Places, Yelp, and Foursquare are starting to be well known as a result of their capability to share location related information. Together with the ubiquitous access to the web and the popularity of different kinds of location-based social networking sites (LBSN) including the microblogging service Twitter or even the check-in service Foursquare, most. People are progressively prepared to report the personal experiences of theirs on the LBSNs from their immediate vicinity in all sorts of scenarios. In these services, users could share their geospatial Point of Interests and its related contents in the actual physical community by using web-based platforms. The location dimension bridges the gap between the actual physical world as well as the digital online social network providers, providing rise to unique challenges and opportunities within traditional recommender models within the following aspects:
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