神经细胞和纤维仍在起作用,处理刺激物的空间位置属性,只不过不是视觉,而是通过听觉和触觉。
The neural cells and fibers are still there and still functioning, processing spatial attributes of stimuli, driven not by sight but by hearing and touch.
我们通过触觉、听觉和视觉来完全理解空间。
To fully comprehend space we need stereoscopic touch, hearing and vision.
一旦它的印刷和冷却,你就会有一些以前只是占用空间,在你的头上触觉版本。
Once it's printed and cooled, you'll have a tactile version of something that used to just occupy space in your head.
人类对空间位置的感知能力是一套复杂的功能,它同时涉及到三个要素:视觉,前庭感知和触觉。
The human perception of spatial location is a very complex function that simultaneously involves three elements: the vision, the vestibular system and the sense of touch.
手爪是空间智能机器人的关键部件之一,它集成了视觉、触觉和力觉等多种传感器。
The gripper is one of the key components of space intelligent robot which integrates many sensors such as vision sensors, tactile sensors, force sensors, etc.
关于单一触觉和触觉交叉工作记忆特征在大脑的空间位置和神经电活动,以及大脑如何对之进行调节和储存,对我们来说都是个未知数。
The features of brain structure and activity that regulate the access and storage capacity of haptic-haptic working memory and visual-haptic or auditory-haptic working memory are still unknown.
关于单一触觉和触觉交叉工作记忆特征在大脑的空间位置和神经电活动,以及大脑如何对之进行调节和储存,对我们来说都是个未知数。
The features of brain structure and activity that regulate the access and storage capacity of haptic-haptic working memory and visual-haptic or auditory-haptic working memory are still unknown.
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