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A sizable amount of current literature on online drift detection tools thrive on unrealistic parametric strictures such as normality or on non-parametric methods whose power performance is questionable. Using minimal… Click to show full abstract
A sizable amount of current literature on online drift detection tools thrive on unrealistic parametric strictures such as normality or on non-parametric methods whose power performance is questionable. Using minimal realistic assumptions such as unimodality, we have strived to proffer an alternative, through a novel application of Bernstein’s inequality. Simulations from such parametric densities as Beta and Logit-normal as well as real-data analyses demonstrate this new method’s superiority over similar techniques relying on bounds, such as Hoeffding’s. Improvements are apparent in terms of higher power, efficient sample sizes, and sensitivity to parameter values.
Journal Title: IEEE Access
Year Published: 2017
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