Abstract
Brain/machine interfaces will play a significant role in the coming decades. As a means to enhance human abilities they are set to fundamentally change the course of humanity. Today, there is no clear winner in the race towards a practical in-vivo interface. We present here the latest work completed at UNSW using multi-optrode arrays, a technology based on ferroelectric liquid crystals that has the potential to deliver 1 million neuronal connections: a stated goal of the DARPA program.
© 2018 The Author(s)
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