Bayesian Parameter Estimations for Grey System Models in Online Traffic Speed Predictions

08/15/2021
by   Gurcan Comert, et al.
0

This paper presents Bayesian parameter estimation for first order Grey system models' parameters (or sometimes referred to as hyperparameters). There are different forms of first-order Grey System Models. These include GM(1,1), GM(1,1| cos(ω t), GM(1,1| sin(ω t), and GM(1,1| cos(ω t), sin(ω t). The whitenization equation of these models is a first-order linear differential equation of the form dx/dt + a x = f(t) where a is a parameter and f(t) = b in GM(1,1|) , f(t) = b_1cos(ω t) + b_2 in GM(1,1| cos(ω t), f(t) = b_1sin(ω t)+b_2 in GM(1,1| sin(ω t), f(t) = b_1sin(ω t) + b_2cos(ω t) + b_3 in GM(1,1| cos(ω t), sin(ω t), f(t) = b x^2 in Grey Verhulst model (GVM), and where b, b_1, b_2, and b_3 are parameters. The results from Bayesian estimations are compared to the least square estimated models with fixed ω. We found that using rolling Bayesian estimations for GM parameters can allow us to estimate the parameters in all possible forms. Based on the data used for the comparison, the numerical results showed that models with Bayesian parameter estimations are up to 45% more accurate in mean squared errors.

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