Finding the optimal parameter setting for an ensemble-based lesion detector

In this paper, we show how the optimal setting of an ensemble-based lesion detector can improve the performance of the system. That is, instead of the individually optimal parameter settings of the member algorithms, we determine such a setting that maximizes the accuracy of the ensemble. Our case study is an ensemble composed for microaneurysm detection on retinal images that is currently ranked as first in an online competition. The determination of the optimal parameter setting is a very time consuming problem, especially in fusion-based systems. Thus, we suggest several speedups in a stochastic optimum search framework regarding the evaluation of the corresponding special energy function. In other words, we also suggest some modifications and tuning of stochastic search approaches for ensemble-based image detectors evaluated on test databases.