Jing huang robots7/24/2023 The findings in this work provide a new anisotropic design of multidimensional sensors for emerging applications, such as smart electronics and humanoid robots. Science China’s latest brainwave A device that can be controlled by a user’s brain has achieved unprecedented accuracy in tests, scientists say It could be used at the Chinese space station to. Huang's research expertise lies in studying transcriptional and epigenetic regulation in both stem cells and cancer. The ICIRA 2021 proceedings deal with intelligent robots and applications, such as human-centered wearable robotics, medical engineering, etc. With a remarkable gauge factor of 168 for in-plane strains and high sensitivity of 0.62 kPa −1 for normal pressure, the sensor is used in a smart sport assistant that can evaluate sport performance and provide feedback in real-time. 24 Senior Investigator Laboratory of Cancer Biology and Genetics Head, Cancer and Stem Cell Epigenetics Section RESEARCH SUMMARY Dr. ORCID provides an identifier for individuals to use with their name as they engage in research, scholarship, and innovation activities. The 3D anisotropic sensing characteristics of the sub-sensors arising from their highly anisotropic structures enable the differentiation of 3D stimuli including in-plane tension, normal pressure and shear, and the distinction of in-plane strain directions with an unprecedented selectivity of 3.68 among existing stretchable sensors. In this study, a skin-inspired multidimensional sensor capable of sensing 3D stimuli is developed by rationally integrating three sub-sensors, which simultaneously and selectively measure strains in three orthogonal axes. Given the three-dimensional (3D) nature of multiaxial stimuli in practical applications, discriminating multidimensional strains in 3D space is critical and requires an integration of different anisotropic sensors for high sensitivity and selectivity. First time quality diagnostics and improvement through data analysis: A study of a crankshaft line. Journal of Manufacturing Systems 57, 311-322. Previous wearable sensors are designed for sensing only single-axis deformation or multidimensional strains in a two-dimensional plane. Product completion time prediction using a hybrid approach combining deep learning and system model. Stretchable sensors capable of detecting various mechanical stimuli are essential in wearable applications involving multiaxial motions.
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