M2: Mixed Models With Preferences, Popularities and Transitions for Next-Basket Recommendation

Next-basket recommendation considers the problem of recommending a set of items into the next basket that users will purchase as a whole. In this paper, we develop a novel mixed model with preferences, popularities and transitions (\mathop {\mathtt {M^2}}\limits M2 ) for the next-basket recommendation. This method models three important factors in next-basket generation process: 1) users' general preferences, 2) items' global popularities and 3) transition patterns among items. Unlike existing recurrent neural network-based approaches, \mathop {\mathtt {M^2}}\limits M2 does not use the complicated networks to model the transitions among items, or generate embeddings for users. Instead, it has a simple encoder-decoder based approach (\mathop {\mathtt {ed\text{-}Trans}}\limits ed-Trans ) to better model the transition patterns among items. We compared \mathop {\mathtt {M^2}}\limits M2 with different combinations of the factors with 5 state-of-the-art next-basket recommendation methods on 4 public benchmark datasets in recommending the first, second and third next basket. Our experimental results demonstrate that \mathop {\mathtt {M^2}}\limits M2 significantly outperforms the state-of-the-art method