Abstract

KARANEVICH, Alex G.; HE, Jianghua  and  GAJEWSKI, Byron J. Using an Anchor to Improve Linear Predictions with Application to Predicting Disease Progression. Rev.Colomb.Estad. [online]. 2018, vol.41, n.2, pp.137-155. ISSN 0120-1751.  https://doi.org/10.15446/rce.v41n2.68535.

Linear models are some of the most straightforward and commonly used modelling approaches. Consider modelling approximately monotonic response data arising from a time-related process. If one has knowledge as to when the process began or ended, then one may be able to leverage additional assumed data to reduce prediction error. This assumed data, referred to as the “anchor”, is treated as an additional data-point generated at either the beginning or end of the process. The response value of the anchor is equal to an intelligently selected value of the response (such as the upper bound, lower bound, or 99th percentile of the response, as appropriate). The anchor reduces the variance of prediction at the cost of a possible increase in prediction bias, resulting in a potentially reduced overall mean-square prediction error. This can be extremely effective when few individual data-points are available, allowing one to make linear predictions using as little as a single observed data-point. We develop the mathematics showing the conditions under which an anchor can improve predictions, and also demonstrate using this approach to reduce prediction error when modelling the disease progression of patients with amyotrophic lateral sclerosis.

Keywords : Linear models; biased regression; anchor; amyotrophic lateral sclerosis; ordinary least squares.

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