Portable, Chronic Neural Interface System Design for Sensory Augmentation

2007 3rd International IEEE/EMBS Conference on Neural Engineering Pub Date : 2007-05-02 DOI:10.1109/CNE.2007.369602

S. Buerger, R. Olsson III, K. Wojciechowski, E. Yepez III, D. Novick, K. Peterson, T. Turner, J. Wheeler, B. Rohrer, D. Kholwadwala

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引用次数: 2

Abstract

While existing work in neural interfaces is largely geared toward the restoration of lost function in amputees or victims of neurological injuries, similar technology may also facilitate augmentation of healthy subjects. One example is the potential to learn a new, unnatural sense through a neural interface. The use of neural interfaces in healthy subjects would require an even greater level of safety and convenience than in disabled subjects, including reliable, robust bidirectional implants with highly-portable components outside the skin. We present our progress to date in the development of a bidirectional neural interface system intended for completely untethered use. The system consists of a wireless stimulating and recording peripheral nerve implant powered by a rechargeable battery, and a wearable package that communicates wirelessly both with the implant and with a computer or a network of independent sensor nodes. Once validated, such a system could permit the exploration of increasingly realistic use of neural interfaces both for restoration and for augmentation.

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用于感官增强的便携式慢性神经接口系统设计

虽然目前在神经接口方面的工作主要是为了恢复截肢者或神经损伤受害者失去的功能，但类似的技术也可以促进健康受试者的增强。一个例子是通过神经接口学习一种新的、不自然的感觉的潜力。与残疾受试者相比，在健康受试者身上使用神经接口需要更高的安全性和便利性，包括在皮肤外植入具有高度便携组件的可靠、坚固的双向植入物。我们介绍了我们的进展到目前为止，在开发一个双向神经接口系统的目的是完全不受束缚的使用。该系统包括一个由可充电电池供电的无线刺激和记录周围神经植入物，以及一个可与植入物、计算机或独立传感器节点网络进行无线通信的可穿戴包。一旦得到验证，这样的系统可以允许探索越来越现实的神经接口用于修复和增强。

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2007 3rd International IEEE/EMBS Conference on Neural Engineering

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