首页|Study Findings from University of California Update Knowledge in Robotics (Condu ctive block copolymer elastomers and psychophysical thresholding for accurate ha ptic effects)
Study Findings from University of California Update Knowledge in Robotics (Condu ctive block copolymer elastomers and psychophysical thresholding for accurate ha ptic effects)
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By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News – Fresh data on robotics are presented i n a new report. According to news originating from La Jolla, California, by News Rx editors, the research stated, “Electrotactile stimulus is a form of sensory s ubstitution in which an electrical signal is perceived as a mechanical sensation .” The news editors obtained a quote from the research from University of Californi a: “The electrotactile effect could, in principle, recapitulate a range of tacti le experience by selective activation of nerve endings. However, the method has been plagued by inconsistency, galvanic reactions, pain and desensitization, and unwanted stimulation of nontactile nerves. Here, we describe how a soft conduct ive block copolymer, a stretchable layout, and concentric electrodes, along with psychophysical thresholding, can circumvent these shortcomings.”
University of CaliforniaLa JollaCali forniaUnited StatesNorth and Central AmericaRobotics
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