Abstract
This paper discusses nonparametric kernel regression with the regressor being a \(d\)-dimensional \(\beta\)-null recurrent process in presence of conditional heteroscedasticity. We show that the mean function estimator is consistent with convergence rate \(\sqrt{n(T)h^{d}}\), where \(n(T)\) is the number of regenerations for a \(\beta\)-null recurrent process and the limiting distribution (with proper normalization) is normal. Furthermore, we show that the two-step estimator for the volatility function is consistent. The finite sample performance of the estimate is quite reasonable when the leave-one-out cross validation method is used for bandwidth selection. We apply the proposed method to study the relationship of Federal funds rate with 3-month and 5-year T-bill rates and discover the existence of nonlinearity of the relationship. Furthermore, the in-sample and out-of-sample performance of the nonparametric model is far better than the linear model.
Highlights
The interplay of nonlinearity and nonstationarity has been an important topic in recent developments of econometrics
We introduce the theory of nonparametric estimation for a multivariate β-null recurrent system
We apply the proposed method to study the relationship of three interest rates: the effective Federal funds rate (FF), 3-month Treasure bill rate (TB3m) and 5-year Treasure bill rate (TB5y)
Summary
The interplay of nonlinearity and nonstationarity has been an important topic in recent developments of econometrics. Using different data generating assumptions (i.e., the regressor is a unit root process with innovations being a linear process), Wang and Phillips [3,4] discuss asymptotics for nonparametric estimation for nonlinear cointegrating regression models. The technique of local time approximation for partial sums of functionals of unit root process is used, while in our paper, we use the Markov chain null recurrence framework. Our paper is different from [17] in two ways: first, in our model, the regressor is multivariate rather than univariate; second, we employ the Markov β-null recurrence technique which is different from the local time approximation technique used in [17].
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