In this work, we introduced the concept of pre-filtering the stimuli to reduce the required activation energy in electrical stimulation. The foundation of the principle is based on the frequency-domain analysis of the stimulation signals and the linearized cell membrane.
This work proposes a guideline for designing more energy-efficient electrical stimulators by analyzing the frequency spectrum of the stimuli.
Nov 1, 2022 · This work proposes a guideline for designing more energy-efficient electrical stimulators by analyzing the frequency spectrum of the stimuli ...
This work proposes a guideline for designing more energy-efficient electrical stimulators by analyzing the frequency spectrum of the stimuli.
This work proposes a guideline for designing more energy-efficient electrical stimulators by analyzing the frequency spectrum of the stimuli.
Pre-Filtering of Stimuli for Improved Energy Efficiency in Electrical Neural Stimulation. https://doi.org/10.1109/biocas54905.2022.9948643.
This work proposes a guideline for designing more energy-efficient electrical stimulators by analyzing the frequency spectrum of the stimuli. It is ...
Jul 20, 2023 · This work proposes a guideline for designing more energy-efficient electrical stimulators by analyzing the frequency spectrum of the stimuli. It ...
Pre-filtering of stimuli for improved energy efficiency in electrical neural stimulation. F Varkevisser, A Rashidi, TL Costa, V Giagka, WA Serdijn.
Pre-Filtering of Stimuli for Improved Energy Efficiency in Electrical Neural Stimulation. ( 2022). Varkevisser, Francesc. ;. Rashidi, Amin. ;. Costa, Tiago L ...