一种通过增强感觉反馈进行手部感觉运动康复的可穿戴设备。

E Vendrame, A Coletti, L Cappello, E Mastinu, C Cipriani
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引用次数: 0

摘要

中枢或外周神经损伤导致上肢失去敏感性,严重限制了操纵物体的能力,阻碍了个人独立性。非侵入性增强感觉反馈技术用于促进神经可塑性,从而恢复抓握功能。我们设计了一种用于手部感觉运动康复的可穿戴设备,该设备能够基于定制的压电聚偏氟乙烯(PVDF)传感器可靠地检测瞬态触觉事件,并在这些事件发生时发出离散的振动。我们将传感器集成到织物手套中,并在试点台架测试中测试了该设备,探索其检测物体接触和释放以及物体滑动的能力。由于其宽频带,传感器被证明适用于这两种应用:它们在触摸或释放物体时具有清晰的峰值,并在滑动过程中增加了信号的高频含量。
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A Wearable Device for Hand Sensorimotor Rehabilitation Through Augmented Sensory Feedback.

The loss of sensitivity of the upper limb due to central or peripheral neurological injuries severely limits the ability to manipulate objects, hindering personal independence. Non-invasive augmented sensory feedback techniques are used to promote neural plasticity hence to restore the grasping function. We devised a wearable device for hand sensorimotor rehabilitation capable of reliably detect transient tactile events based on custom piezoelectric polyvinylidene fluoride (PVDF) sensors and deliver discrete bursts of vibrations upon these events. We integrated the sensors into a fabric glove and tested the device in a pilot bench test exploring its ability to detect object contact and release as well as object slippage. Due to their broad bandwidth, the sensors proved to be suitable for both the applications: they responded with clear peaks when touching or releasing the object and increased the high-frequency content of the signal during slippage.

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