无线
计算机科学
可扩展性
频道(广播)
脑-机接口
功率消耗
功率(物理)
计算机硬件
嵌入式系统
神经科学
计算机网络
电信
物理
生物
数据库
脑电图
量子力学
作者
Nir Even-Chen,Dante G. Muratore,Sergey D. Stavisky,Leigh R. Hochberg,Jaimie M. Henderson,Boris Murmann,Krishna V. Shenoy
标识
DOI:10.1038/s41551-020-0595-9
摘要
The efficacy of wireless intracortical brain-computer interfaces (iBCIs) is limited in part by the number of recording channels, which is constrained by the power budget of the implantable system. Designing wireless iBCIs that provide the high-quality recordings of today's wired neural interfaces may lead to inadvertent over-design at the expense of power consumption and scalability. Here, we report analyses of neural signals collected from experimental iBCI measurements in rhesus macaques and from a clinical-trial participant with implanted 96-channel Utah multielectrode arrays to understand the trade-offs between signal quality and decoder performance. Moreover, we propose an efficient hardware design for clinically viable iBCIs, and suggest that the circuit design parameters of current recording iBCIs can be relaxed considerably without loss of performance. The proposed design may allow for an order-of-magnitude power savings and lead to clinically viable iBCIs with a higher channel count.
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