增量方法中最优批大小的确定:龙卷风探测中的应用

Proceedings. 2005 IEEE International Joint Conference on Neural Networks, 2005. Pub Date : 2005-12-27 DOI:10.1109/IJCNN.2005.1556352

H. Son, T. Trafalis, M. B. Richman

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引用次数: 6

摘要

支持向量机(svm)在大规模问题中的计算时间和内存空间限制被认为是关键的限制因素。增量方法是解决大规模问题的一种方法。然而，对增量方法的适当批大小的确定很少进行探讨。在本研究中，最优批大小被定义为计算时间和泛化错误率之间的权衡。基于龙卷风和非龙卷风数据的混合比例，以及固定批大小和基于知识的批大小的比较，进行了确定最优批大小的实验。初步结果表明，基于知识的批处理学习具有最低的泛化错误率。

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Determination of the optimal batch size in incremental approaches: an application to tornado detection

Computing time and memory space limitations in applying support vector machines (SVMs) for large scale problems are recognized as critical limiting factors. Incremental approaches have serve as a remedy for large scale problems. However, determination of the appropriate batch size for incremental approaches has been explored rarely. In this study, the optimal batch size is defined as tradeoff between computing time and generalization error rate. Experiments for the determination of the optimal batch size, based on the mixture ratio of tornado and non-tornado data and a comparison between fixed batch size and knowledge based batch size, are performed. Preliminary results suggest that the knowledge based batch learning has the lowest generalization error rate.

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Proceedings. 2005 IEEE International Joint Conference on Neural Networks, 2005.

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