The functionality of prosthetic limbs is restricted by the limited availability of sensory
feedback. The goal of the present research is the development of a multichannel …

Direct interfacing of transected peripheral nerves with advanced robotic prosthetic devices
has been proposed as a strategy for achieving natural motor control and sensory perception …

This paper presents an ultra-low power and small area analog front-end for an implantable
multichannel neural signal recording and stimulation interface, to be used in wirelessly …

Chronic in-vivo neurophysiology experiments require highly miniaturized, remotely powered
multi-channel neural interfaces which are currently lacking in power or flexibility post …

A major challenge since the invention of implantable devices has been a reliable and long-
term stable transcutaneous communication. In the case of prosthetic limbs, existing …

Recent technological advances attempting to interface prosthetic limbs to the brain have
been hampered by a lack of wireless multichannel data acquisition hardware. This work has …

We propose a novel multi-channel (eight channels) passive neuro-sensing system for
wireless acquisition of brain signals as low as 20 μVpp. Compared to previous batteryless …

Modern robotic hands/upper limbs may replace multiple degrees of freedom of extremity
function. However, their intuitive use requires a high number of control signals, which current …

An active probe and microstimulator SoC for interfacing with peripheral nerves is presented.
It performs 64-channel artifact-tolerant neural recording, cuff imbalance compensation by …

We describe a bidirectional impedance-modulation wireless data link for implanted neural
prostheses. The link uses near-field inductive coupling between the implanted system and …