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Noise Induces Biased Estimation of the Correction Gain

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  • Jooeun Ahn
  • Zhaoran Zhang
  • Dagmar Sternad

Abstract

The detection of an error in the motor output and the correction in the next movement are critical components of any form of motor learning. Accordingly, a variety of iterative learning models have assumed that a fraction of the error is adjusted in the next trial. This critical fraction, the correction gain, learning rate, or feedback gain, has been frequently estimated via least-square regression of the obtained data set. Such data contain not only the inevitable noise from motor execution, but also noise from measurement. It is generally assumed that this noise averages out with large data sets and does not affect the parameter estimation. This study demonstrates that this is not the case and that in the presence of noise the conventional estimate of the correction gain has a significant bias, even with the simplest model. Furthermore, this bias does not decrease with increasing length of the data set. This study reveals this limitation of current system identification methods and proposes a new method that overcomes this limitation. We derive an analytical form of the bias from a simple regression method (Yule-Walker) and develop an improved identification method. This bias is discussed as one of other examples for how the dynamics of noise can introduce significant distortions in data analysis.

Suggested Citation

  • Jooeun Ahn & Zhaoran Zhang & Dagmar Sternad, 2016. "Noise Induces Biased Estimation of the Correction Gain," PLOS ONE, Public Library of Science, vol. 11(7), pages 1-18, July.
  • Handle: RePEc:plo:pone00:0158466
    DOI: 10.1371/journal.pone.0158466
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    Cited by:

    1. Christopher J Hasson & Zhaoran Zhang & Masaki O Abe & Dagmar Sternad, 2016. "Neuromotor Noise Is Malleable by Amplifying Perceived Errors," PLOS Computational Biology, Public Library of Science, vol. 12(8), pages 1-28, August.

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