Hierarchical Time Series Variational Transformer for Nonstationary Multivariate Time Series Forecasting

HTV-Trans is a novel model that effectively captures non-stationarity and stochasticity in multivariate time series forecasting, outperforming other methods.

HTV-Trans addresses the non-stationarity issue in multivariate time series forecasting by combining a hierarchical probabilistic generative module with a transformer. The model considers the inherent non-stationarity and stochasticity characteristics within MTS, providing expressive representations for forecasting tasks. By recovering intrinsic non-stationary information into temporal dependencies, HTV-Trans shows efficiency in diverse datasets. Previous methods primarily adopt stationarization techniques to handle non-stationarity, but HTV-Trans introduces a powerful probabilistic generative module to address this challenge. The hierarchical structure of HTV-Trans allows for multi-scale representation of original time series data, enhancing predictive capabilities. The model's architecture includes a transformer encoder to capture dynamic information and an MLP decoder for forecasting tasks.

HTV-Trans demonstrates efficiency on MTS forecasting tasks. Experiments conducted on diverse datasets show the effectiveness of HTV-Trans.

"HTV-Trans is utilized to learn expressive representations of MTS and applied to forecasting tasks." "Experiments on different datasets illustrate the efficiency of HTV-Trans on MTS forecasting tasks."