首页|Findings from Soochow University Advance Knowledge in Cyborg and Bionic Systems (Mechanosensor for Proprioception Inspired by Ultrasensitive Trigger Hairs of Venus Flytrap)
Findings from Soochow University Advance Knowledge in Cyborg and Bionic Systems (Mechanosensor for Proprioception Inspired by Ultrasensitive Trigger Hairs of Venus Flytrap)
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NETL
NSTL
Amer Assoc Advancement Science
A new study on cyborg and bionic systems is now available. According to news reporting originating from Suzhou, People’s Republic of China, by NewsRx correspondents, research stated, “Mechanosensors, as the core component of a proprioceptive system, can detect many types of mechanical signals in their surroundings, such as force signals, displacement signals, and vibration signals. It is understandable that the development of an all-new mechanosensory structure that can be widely used is highly desirable.” The news journalists obtained a quote from the research from Soochow University: “This is because it can markedly improve the detection performance of mechanosensors. Coincidentally, in nature, optimized microscale trigger hairs of Venus flytrap are ingeniously used as a mechanosensory structure. These trigger hairs are utilized for tactile mechanosensilla to efficiently detect external mechanical stimuli. Biological trigger hair-based mechanosensilla offer an all-new bio-inspired strategy. This strategy utilizes the notch structure and variable stiffness to enhance the perceptual performance of mechanosensors. In this study, the structure-performance-application coupling relationship of trigger hair-based mechanosensors is explored through experiment and analysis.”
Soochow UniversitySuzhouPeople’s Republic of ChinaAsiaCyborg and Bionic SystemsTechnology
NETL
NSTL
Amer Assoc Advancement Science
