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引用次数: 6
摘要
利用瞬时高密度表面肌电图(HD-sEMG)图像识别神经肌肉活动的概念为开发更流畅和自然的肌肉-计算机接口开辟了新的途径。最先进的即时HD-sEMG图像识别方法使用计算密集型深度卷积网络(ConvNet)分类器实现了突出的性能,而使用传统分类器的性能非常低。然而,传统的分类器,如支持向量机(SVM),如果提供了良好的特征向量,在产生最优分类方面可以超越卷积神经网络。本文研究了特征集的提取问题,提出以HOG (Histograms of Oriented Gradient,直方图)作为鲁棒性神经肌肉活动识别的特征,采用对支持向量机作为分类方案。实验结果表明,HOG代表了瞬时HD-sEMG图像内部的独特特征,并对成对支持向量机的超参数进行微调,可以达到与当前更复杂的方法相当的识别精度。
HOG and Pairwise SVMs for Neuromuscular Activity Recognition Using Instantaneous HD-sEMG Images
The concept of neuromuscular activity recognition using instantaneous high-density surface electromyography (HD-sEMG) image opens up new avenues for the development of more fluid and natural muscle-computer interfaces. The state-of-the-art methods for instantaneous HD-sEMG image recognition achieve prominent performance using a computationally intensive deep convolutional networks (ConvNet) classifier, while very low performance is reported using the conventional classifiers. However, the conventional classifiers such as Support Vector Machines (SVM) can surpass ConvNet at producing optimal classification if well-behaved feature vectors are provided. This paper studies the question of extracting distinctive feature sets, thus propose to use Histograms of Oriented Gradient (HOG) as unique features for robust neuromuscular activity recognition, adopting pair wise SVMs as the classification scheme. The experimental results proved that the HOG represents unique features inside the instantaneous HD-sEMG image and fine-tuning the hyper- parameter of the pair wise SVMs, the recognition accuracy comparable to the more complex state of the art methods can be achieved.
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