A comparison of algorithms and humans for mitosis detection

2014 IEEE 11th International Symposium on Biomedical Imaging (ISBI) Pub Date : 2014-07-31 DOI:10.1109/ISBI.2014.6868130

A. Giusti, Claudio Caccia, D. Ciresan, J. Schmidhuber, L. Gambardella

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引用次数: 22

Abstract

We consider the problem of detecting mitotic figures in breast cancer histology slides. We investigate whether the performance of state-of-the-art detection algorithms is comparable to the performance of humans, when they are compared under fair conditions: our test subjects were not previously exposed to the task, and were required to learn their own classification criteria solely by studying the same training set available to algorithms. We designed and implemented a standardized web-based test based on the publicly-available MITOS dataset, and compared results with the performance of the 6 top-scoring algorithms in the ICPR 2012 Mitosis Detection Contest. The problem is presented as a classification task on a balanced dataset. 45 different test subjects produced a total of 3009 classifications. The best individual (accuracy = 0.859 ± 0.012), is outperformed by the most accurate algorithm (accuracy = 0.873 ± 0.004). This suggests that state-of-the-art detection algorithms are likely limited by the size of the training set, rather than by lack of generalization ability.

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有丝分裂检测算法与人类的比较

我们考虑在乳腺癌组织学切片中检测有丝分裂象的问题。我们调查了最先进的检测算法的性能是否与人类的性能相当，当他们在公平的条件下进行比较时:我们的测试对象以前没有接触过任务，并且被要求仅通过研究算法可用的相同训练集来学习他们自己的分类标准。我们基于公开的MITOS数据集设计并实现了一个标准化的基于网络的测试，并将结果与ICPR 2012有丝分裂检测竞赛中得分最高的6种算法的性能进行了比较。该问题以平衡数据集上的分类任务的形式呈现。45个不同的测试科目总共产生了3009个分类。最佳个体(准确率= 0.859±0.012)优于最精确算法(准确率= 0.873±0.004)。这表明，最先进的检测算法可能受到训练集大小的限制，而不是缺乏泛化能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 IEEE 11th International Symposium on Biomedical Imaging (ISBI)

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