Akademik Veri Yönetim Sistemi
COMPUTATIONAL ECONOMICS, 2022 (SCI-Expanded)
Artificial intelligence applications, including algorithmic training, portfolio allocation, and stock return forecasting in the financial industry, are rapidly developing research fields. Particularly, the forecasting of stock return has received considerable attention. Selecting the most promising model to forecast stock return has always been the most prominent task in the literature. Several studies have reported the prediction ability of recurrent neural network (RNN) models, whereas only a few studies have rigorously evaluated the prediction performance of temporal convolution networks (TCNs) for stock return forecasting settings. Moreover, although most studies are focused on comparing the performance of deep learning models at a single horizon forecasting, the multi-horizon forecasting applications of stock return have been studied only limitedly. In this study, we aim to evaluate the forecasting performance of state-of-the-art deep learning models at multi-horizon forecasting paths in stock return forecasting tasks. Specifically, we focus on TCNs, RNNs, long short-term memory, and gated recurrent unit models in terms of forecasting performance and direction accuracy. Our evaluation framework based on the model confidence set shows which model(s) is (are) better, with statistical significance, for forecasting stock return at multi-horizon forecasting. The empirical results assert that the TCN model has the best out-of-sample forecasting performance at all forecasting horizons on three financial datasets compared to other models.