dc.description.abstract | The emerging necessity for mathematical prediction of future behavior in numerous
scientific and practical domains, coupled with the growing abundance of historical data,
entails the conception of reliable and efficient techniques capable of capturing potential
relationship between past and future from multivariate observations. However, there is a
variety of methods utilized in predicting single variable data and cannot extract adequate
data sequences between multiple variables. To address this limitation, a novel graph neural
network model is introduced for multivariate time series forecasting specifically tailored to
pharmaceutical sales forecasting. Each network node interconnected through hidden
dependencies is used to exemplify a specific variable in the heterogeneous time series. Our
proposed model utilizes intra-series temporal correlations extraction and attention
mechanisms to capture the inter-series correlations in the graph. Wavelet transform
decomposition is used to obtain time-related patterns from the multivariate time series at
different frequencies, and simultaneously forming node features in the graph learning
module. Multi-head attention is applied to integrate associations between nodes and
enhance the relational dependencies in the graph structure. Additionally, graph
convolutional neural networks update node embeddings for capturing abundant
relationships. Finally, a temporal convolutional network is employed to establish
correlation among temporal scales to achieve multivariate time series prediction. The
effectiveness of our proposed model is evaluated using real-world data from medical
domains, showing its superiority over existing deep learning methods. The proposed graph
neural network model has the potential to advance multivariate time series forecasting in
various applications | en_US |