通过神经接口为仿生手恢复触觉的仿生编码模型。

Biomimetic encoding model for restoring touch in bionic hands through a nerve interface.

机构信息

Committee on Computational Neuroscience, University of Chicago, Chicago, IL, United States of America.

出版信息

J Neural Eng. 2018 Dec;15(6):066033. doi: 10.1088/1741-2552/aae398. Epub 2018 Sep 24.

DOI:10.1088/1741-2552/aae398

PMID:30245482

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6324178/

Abstract

OBJECTIVE

Hand function can be restored in upper-limb amputees by equipping them with anthropomorphic prostheses controlled with signals from residual muscles. The dexterity of these bionic hands is severely limited in large part by the absence of tactile feedback about interactions with objects. We propose that, to the extent that artificial touch mimics its natural counterpart, these sensory signals will be more easily integrated into the motor plan for object manipulation.

APPROACH

We describe an approach to convey tactile feedback through electrical stimulation of the residual somatosensory nerves that mimics the aggregate activity of tactile fibers that would be produced in the nerve of a native hand during object interactions. Specifically, we build a parsimonious model that maps the stimulus-described as time-varying indentation depth, indentation rate, and acceleration-into continuous estimates of the time-varying population firing rate and of the size of the recruited afferent population.

MAIN RESULTS

The simple model can reconstruct aggregate afferent responses to a wide range of stimuli, including those experienced during activities of daily living.

SIGNIFICANCE

We discuss how the proposed model can be implemented with a peripheral nerve interface and anticipate it will lead to improved dexterity for prosthetic hands.

摘要

目的

通过为上肢截肢者配备由残肢肌肉信号控制的拟人义假肢，可以恢复手部功能。这些仿生手的灵活性在很大程度上受到缺乏与物体交互时的触觉反馈的限制。我们提出，在人工触觉模拟其自然对应物的程度上，这些感觉信号将更容易被整合到物体操作的运动计划中。

方法

我们描述了一种通过对残余感觉神经的电刺激来传递触觉反馈的方法，该方法模拟了在物体交互过程中，原生手中的神经中产生的触觉纤维的总活动。具体来说，我们构建了一个简约的模型，将刺激（描述为时变的凹陷深度、凹陷率和加速度）映射到连续的时变群体发放率和募集传入群体大小的估计值上。

主要结果

简单的模型可以重建对广泛刺激的传入反应，包括日常生活活动中经历的刺激。

意义

我们讨论了如何使用周围神经接口来实现所提出的模型，并预计它将提高假肢手的灵活性。

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本文引用的文献

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