Using the radar echo data from the hail cloud in the Aksu region from April to September in 2021-2022, a echo extrapolation model of deep learning was jointly constructed based on the trajectory GRU model and generative adversarial networks (GAN) model. This model is applied to the monitoring and early warning of severe convective (hail) weather. By adopting the assessment method of different thresholds and forecast time effectiveness, the effect of the deep learning-based echo extrapolation model''s echo prediction was analyzed. The results show: (1) Within a 30-minute prediction period, as the reflectivity threshold increases, both the critical success index (CSI) and the probability of detection (POD) gradually decrease, while the false alarm rate (FAR) first decreases and then increases. The FAR is at its lowest when the reflectivity threshold is 35dBZ.When the reflectivity threshold is set to 35dBZ and the extrapolation time period is kept consistent, the deep learning-based echo extrapolation model shows improved performance compared to the optical flow method. The model can increase the CSI by 0.05 to 0.15, increase the POD by 0.05 to 0.15, and decrease the FAR by 0.05 to 0.12. (3) In predicting the movement paths of severe convective cells, the path predicted by the deep learning-based echo extrapolation model is closer to the actual movement path of the cells compared to the TITAN method.