SR-HetGNN:Session-based Recommendation with Heterogeneous Graph Neural Network
This addresses the problem of improving recommendation accuracy for anonymous users in session-based systems, though it is incremental by extending existing graph-based methods with user information.
The paper tackles session-based recommendation by incorporating user profiles into a heterogeneous graph neural network to capture specific user preferences, achieving superior performance over state-of-the-art methods on Diginetica and Tmall datasets.
The Session-Based Recommendation System aims to predict the user's next click based on their previous session sequence. The current studies generally learn user preferences according to the transitions of items in the user's session sequence. However, other effective information in the session sequence, such as user profiles, are largely ignored which may lead to the model unable to learn the user's specific preferences. In this paper, we propose SR-HetGNN, a novel session recommendation method that uses a heterogeneous graph neural network (HetGNN) to learn session embeddings and capture the specific preferences of anonymous users. Specifically, SR-HetGNN first constructs heterogeneous graphs containing various types of nodes according to the session sequence, which can capture the dependencies among items, users, and sessions. Second, HetGNN captures the complex transitions between items and learns the item embeddings containing user information. Finally, local and global session embeddings are combined with the attentional network to obtain the final session embedding, considering the influence of users' long and short-term preferences. SR-HetGNN is shown to be superior to the existing state-of-the-art session-based recommendation methods through extensive experiments over two real large datasets Diginetica and Tmall.