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利用言语运动和运动前区皮层活动对单词生成过程中的发音手势进行解码。

Decoding of articulatory gestures during word production using speech motor and premotor cortical activity.

作者信息

Mugler Emily M, Goldrick Matthew, Rosenow Joshua M, Tate Matthew C, Slutzky Marc W

出版信息

Annu Int Conf IEEE Eng Med Biol Soc. 2015;2015:5339-42. doi: 10.1109/EMBC.2015.7319597.

Abstract

Brain-machine interfaces that directly translate attempted speech from the speech motor areas could change the lives of people with complete paralysis. However, it remains uncertain exactly how speech production is encoded in cortex. Improving this understanding could greatly improve brain-machine interface design. Specifically, it is not clear to what extent the different levels of speech production (phonemes, or speech sounds, and articulatory gestures, which describe the movements of the articulator muscles) are represented in the motor cortex. Using electrocorticographic (ECoG) electrodes on the cortical surface, we recorded neural activity from speech motor and premotor areas during speech production. We decoded both gestures and phonemes using the neural signals. Overall classification accuracy was higher for gestures than phonemes. In particular, gestures were better represented in the primary sensorimotor cortices, while phonemes were better represented in more anterior areas.

摘要

能够直接将来自言语运动区的尝试性言语进行翻译的脑机接口,可能会改变完全瘫痪患者的生活。然而,言语产生在皮层中究竟是如何编码的,仍然不确定。增进对这一点的理解,可能会极大地改进脑机接口设计。具体而言,言语产生的不同层次(音素,即语音,以及描述发音肌肉运动的发音姿势)在运动皮层中的表征程度尚不清楚。我们使用皮层表面的皮层脑电图(ECoG)电极,在言语产生过程中记录了言语运动区和运动前区的神经活动。我们利用神经信号对姿势和音素进行了解码。姿势的总体分类准确率高于音素。特别是,姿势在初级感觉运动皮层中表现得更好,而音素在更靠前的区域表现得更好。

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