Compensation Strategies for Bioelectric Signal Changes in Chronic Selective Nerve Cuff Recordings: A Simulation Study

Abstract: Peripheral nerve interfaces (PNIs) allow us to extract motor, sensory and autonomic information from the nervous system and use it as control signals in neuroprosthetic and neuromodulation applications. Recent efforts have aimed to improve the recording selectivity of PNIs, including by using spatiotemporal patterns from multi-contact nerve cuff electrodes as input to a convolutional neural network (CNN). Before such a methodology can be translated to humans, its performance in chronic implantation scenarios m… Show more

“…This technique has shown promising results in an acute rat model. A recent simulation study [84] aimed at mimicking chronic conditions suggested that the selectivity of the spatiotemporal signature can be maintained by establishing a recalibration schedule for the classifier.…”

Tutorial: a guide to techniques for analysing recordings from the peripheral nervous system

“…This technique has shown promising results in an acute rat model. A recent simulation study [84] aimed at mimicking chronic conditions suggested that the selectivity of the spatiotemporal signature can be maintained by establishing a recalibration schedule for the classifier.…”

Tutorial: a guide to techniques for analysing recordings from the peripheral nervous system

Compensating for Electrode Contact Failures in Chronic Selective Nerve Cuff Recordings: A Simulation Study