Nonparametric Regression with Singular Design |
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Authors: | Zhan-Qian Lu |
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Institution: | The Hong Kong University of Science and Technology, Kowloon, Hong Kong |
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Abstract: | Theories of nonparametric regression are usually based on the assumption that the design density exists. However, in some applications such as those involving high-dimensional or chaotic time series data, the design measure may be singular and may be likely to have a fractal (nonintegral) dimension. In this paper, the popular Nadaraya–Watson estimator is studied under the general setup that the continuity of the design measure is governed by the local or pointwise dimension. It will be shown in the iid setup that the nonparametric regression estimator achieves a convergence rate which is dependent only on the pointwise dimension. The case of time series data is also studied. For the latter case, a new mixing condition is introduced, and an assumption of marginal or joint density is completely avoided. Three examples, a fractal regression and two applications for predicting chaotic time series, are used to illustrate the implications of the obtained results. |
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Keywords: | rate of convergence high-dimensional data pointwise dimension fractal design chaotic systems nonlinear prediction strong mixing |
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