中文摘要：

由于对运动伪迹不敏感、适合特殊人群和可穿戴式检测等优势,功能近红外光谱技术（fNIRS）在脑机接口（BCI）、心理认知等领域发挥着日益重要的作用。肢体运动想象是BCI在残疾人康复训练等领域应用的重要范式,伴随穿戴式fNIRS的发展,有望帮助残疾人在家庭或社区开展长期脑康复训练。本文针对目前基于fNIRS的运动想象任务分类准确率普遍不高这一现状,应用基于Pearson积差相关系数的相关指数R^2,对被试进行个性化参数优化,期望改善运动想象的分类结果。实验采集了17名被试的左、右手运动想象任务期间大脑皮层主运动区的血红蛋白浓度变化数据,并采用支持向量机（SVM）分类。结果表明,经过R^2参数优化之后,分类准确率相对无优化情况显著提升,分类准确率在60%以上的被试比例由原本的58.8%提高到了94%,分类准确率在65%以上的被试比例由原本的41.2%提升到了64.7%。

英文摘要：

Due to advantages such as robustness with respect to motion artifact, suitability for special populations like infants, and beingable to be measured in wearable settings, the functional near-infrared spectroscopy（fNIRS） is an emerging and more and more importantbrain functional imaging modality in many research fields e.g. the brain computer interface, the psychology and the cognitive science. Motorimagination is an important paradigm in the rehabilitation trainings for disabled people. With the development of wearable fNIRS systems,these systems may assist the disabled people in long- term brain rehabilitation trainings at home or in community. However, theclassification accuracies of the current f NIRS-based motor imaginary tasks are generally low. This paper aims to improve the classificationaccuracy of the fNIRS-based motor imaginary task by the individualized parameter optimization using the Pearson correlation based R~2 method. In this experiment, the concentration variation data of hemoglobin species during the left and right hand motor imaginary tasks of 17 subjects were collected using the f NIRS method, and the support vector machine（SVM） classifier was then adopted for classification.Experimental results show that the classification accuracy is significantly improved by the parameter optimization using the R~2 method. Withthe R~2 method, the percentage of the subjects with classification accuracies above 60% is turned from 58.8% to 94% and that withclassification accuracies above 65% is turned from 41.2% to 64.7% in the whole subject pool.