GT-SEER: Geo-Temporal SEquential Embedding Rank for Point-of-interest Recommendation

TL;DR

This paper introduces GT-SEER, a novel geo-temporal sequential embedding rank model for POI recommendation that captures contextual check-in information, temporal, and geographical influences to improve recommendation accuracy.

Contribution

It proposes the GT-SEER model that integrates temporal and geographical factors into sequential embedding learning for enhanced POI recommendation.

Findings

GT-SEER outperforms existing models in recommendation accuracy.

Incorporating temporal and geographical influences improves personalization.

The model effectively captures contextual check-in information.

Abstract

Point-of-interest (POI) recommendation is an important application in location-based social networks (LBSNs), which learns the user preference and mobility pattern from check-in sequences to recommend POIs. However, previous POI recommendation systems model check-in sequences based on either tensor factorization or Markov chain model, which cannot capture contextual check-in information in sequences. The contextual check-in information implies the complementary functions among POIs that compose an individual's daily check-in sequence. In this paper, we exploit the embedding learning technique to capture the contextual check-in information and further propose the \textit{{\textbf{SE}}}quential \textit{{\textbf{E}}}mbedding \textit{{\textbf{R}}}ank (\textit{SEER}) model for POI recommendation. In particular, the \textit{SEER} model learns user preferences via a pairwise ranking model under the sequential constraint modeled by the POI embedding learning method. Furthermore, we incorporate two important factors, i.e., temporal influence and geographical influence, into the \textit{SEER} model to enhance the POI recommendation system. Due to the temporal variance of sequences on different days, we propose a temporal POI embedding model and incorporate the temporal POI representations into a temporal preference ranking model to establish the \textit{T}emporal \textit{SEER} (\textit{T-SEER}) model. In addition, We incorporate the geographical influence into the \textit{T-SEER} model and develop the \textit{\textbf{Geo-Temporal}} \textit{{\textbf{SEER}}} (\textit{GT-SEER}) model.