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Vlad Cherevko I have been interested in all kinds of electronics and technologies since the early 2000s. I like to play computer games and understand the work of different gadgets. I regularly monitor the news of the technology in the world and write materials about it.
The device described in Nature’s scientific journal combines a new sensor type with an artificial intelligence algorithm that analyzes real time data.
The measurement accuracy, according to the test results, is 96.4%. The basis of technology was opened in 2021 by the same team property – a giant magnetoelastic effect in soft materials. This effect allows the polymer composite to convert mechanical pressure from the movement of the eyelid into a magnetic and then to an electrical signal.
The design of the sensor includes a layer of silicone rubber with built -in micromagnets and a thin conductive golden coil applied to the thermoplastic elastomer. The device is stretched, waterproof and is intended for direct wearing on the eyelid. It converts the eye movements to high -precision signals that the neural network processes.
The algorithm analyzes six blinking parameters to determine the degree of fatigue of the user. The developers point out that the discovery of a magnetoelastic effect in soft systems has considerable scientific potential, which is still fully explored.
”, – WRITE: mezha.media
Vlad Cherevko I have been interested in all kinds of electronics and technologies since the early 2000s. I like to play computer games and understand the work of different gadgets. I regularly monitor the news of the technology in the world and write materials about it.
The device described in Nature’s scientific journal combines a new sensor type with an artificial intelligence algorithm that analyzes real time data.
The measurement accuracy, according to the test results, is 96.4%. The basis of technology was opened in 2021 by the same team property – a giant magnetoelastic effect in soft materials. This effect allows the polymer composite to convert mechanical pressure from the movement of the eyelid into a magnetic and then to an electrical signal.
The design of the sensor includes a layer of silicone rubber with built -in micromagnets and a thin conductive golden coil applied to the thermoplastic elastomer. The device is stretched, waterproof and is intended for direct wearing on the eyelid. It converts the eye movements to high -precision signals that the neural network processes.
The algorithm analyzes six blinking parameters to determine the degree of fatigue of the user. The developers point out that the discovery of a magnetoelastic effect in soft systems has considerable scientific potential, which is still fully explored.