具有跨域均值逼近和输出权对齐的关节传递极限学习机

Shaofei Zang, Dongqing Li, Chao Ma, Jianwei Ma
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引用次数: 0

摘要

极限学习机(extreme learning machine, ELM)具有学习速度快、准确率高的特点,在模式识别和机器学习领域取得了巨大的成功。不幸的是,在训练模型的标记样本数量不足的情况下,它会失败。由于成本高,标签样品难以获得。本文用迁移学习方法解决了这一问题,提出了联合迁移极限学习机(JTELM)。首先,采用跨域均值逼近(CDMA)最小化域间的差异,得到一个ELM模型;其次,在输出层引入子空间对齐(sa)和权值逼近,增强知识迁移能力,学习另一种ELM模型;第三,测试样本的预测由两个学习到的ELM模型主导。最后,通过一系列实验对JTELM的性能进行了研究,结果表明该方法有效地完成了迁移学习任务,并且优于传统的ELM和其他迁移或非迁移学习方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Joint Transfer Extreme Learning Machine with Cross-Domain Mean Approximation and Output Weight Alignment
With fast learning speed and high accuracy, extreme learning machine (ELM) has achieved great success in pattern recognition and machine learning. Unfortunately, it will fail in the circumstance where plenty of labeled samples for training model are insufficient. The labeled samples are difficult to obtain due to their high cost. In this paper, we solve this problem with transfer learning and propose joint transfer extreme learning machine (JTELM). First, it applies cross-domain mean approximation (CDMA) to minimize the discrepancy between domains, thus obtaining one ELM model. Second, subspace alignment (sa) and weight approximation are together introduced into the output layer to enhance the capability of knowledge transfer and learn another ELM model. Third, the prediction of test samples is dominated by the two learned ELM models. Finally, a series of experiments are carried out to investigate the performance of JTELM, and the results show that it achieves efficiently the task of transfer learning and performs better than the traditional ELM and other transfer or nontransfer learning methods.
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