The FFBS Estimation of High Dimensional Panel Data Factor Stochastic Volatility Models

In this paper, We propose a new style panel data factor stochastic volatility model with observable factors and unobservable factors based on the multivariate stochastic volatility model, which is mainly composed of three parts, such as the mean equation, volatility equation and factor volatility evolution. The stochastic volatility equation is a 1-step forward prediction process with high dimensional parameters to be estimated. Using the Markov Chain Monte Carlo Simulation (MCMC) method, the Forward Filtering Backward Sampling (FFBS) algorithm of the stochastic volatility equation is mainly used to estimate the new model by Kalman Filter Recursive Algorithm (KFRA). The results of numeric simulation and latent factor estimation show that the algorithm possesses robustness and consistency for parameter estimation. This paper makes a comparative analysis of the observable and unobservable factors of internet finance and traditional financial listed companies in the Chinese stock market using the new model and its estimation method. The results show that the influence of observable factors is similar to the two types of listed companies, but the influence of unobservable factors is obviously different.