Ensemble Pruning for Glaucoma Detection in an Unbalanced Data Set
Adler W, Gefeller O, Gul A, Horn F, Khan Z, Lausen B (2016)
Publication Type: Journal article
Publication year: 2016
Journal
Book Volume: 55
Pages Range: 557-563
Journal Issue: 6
DOI: 10.3414/ME16-01-0055
Abstract
Random forests are successful classifier ensemble methods consisting of typically 100 to 1000 classification trees. Ensemble pruning techniques reduce the computational cost, especially the memory demand, of random forests by reducing the number of trees without relevant loss of performance or even with increased performance of the sub-ensemble. The application to the problem of an early detection of glaucoma, a severe eye disease with low prevalence, based on topographical measurements of the eye background faces specific challenges.We examine the performance of ensemble pruning strategies for glaucoma detection in an unbalanced data situation.The data set consists of 102 topographical features of the eye background of 254 healthy controls and 55 glaucoma patients. We compare the area under the receiver operating characteristic curve (AUC), and the Brier score on the total data set, in the majority class, and in the minority class of pruned random forest ensembles obtained with strategies based on the prediction accuracy of greedily grown sub-ensembles, the uncertainty weighted accuracy, and the similarity between single trees. To validate the findings and to examine the influence of the prevalence of glaucoma in the data set, we additionally perform a simulation study with lower prevalences of glaucoma.In glaucoma classification all three pruning strategies lead to improved AUC and smaller Brier scores on the total data set with sub-ensembles as small as 30 to 80 trees compared to the classification results obtained with the full ensemble consisting of 1000 trees. In the simulation study, we were able to show that the prevalence of glaucoma is a critical factor and lower prevalence decreases the performance of our pruning strategies.The memory demand for glaucoma classification in an unbalanced data situation based on random forests could effectively be reduced by the application of pruning strategies without loss of performance in a population with increased risk of glaucoma.
Authors with CRIS profile
Werner Adler
Lehrstuhl für Biometrie und Epidemiologie
Olaf Gefeller
Lehrstuhl für Biometrie und Epidemiologie
Folkert Horn
Department of Ophthalmology
Involved external institutions
University of Essex
United Kingdom (GB)
Abdul Wali Khan University Mardan
Pakistan (PK)
Shaheed Benazir Bhutto Women University
Pakistan (PK)
United Kingdom (GB)
Abdul Wali Khan University Mardan
Pakistan (PK)
Shaheed Benazir Bhutto Women University
Pakistan (PK)
How to cite
APA:
Adler, W., Gefeller, O., Gul, A., Horn, F., Khan, Z., & Lausen, B. (2016). Ensemble Pruning for Glaucoma Detection in an Unbalanced Data Set. Methods of Information in Medicine, 55(6), 557-563. https://dx.doi.org/10.3414/ME16-01-0055
MLA:
Adler, Werner, et al. "Ensemble Pruning for Glaucoma Detection in an Unbalanced Data Set." Methods of Information in Medicine 55.6 (2016): 557-563.
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