Vestibulo-ocular reflex(VOR) is an important biological reflex that controls eye movement to ensure clear vision while the head is in motion.Nowadays,VOR measurement is commonly done with a video head impulse test bas...Vestibulo-ocular reflex(VOR) is an important biological reflex that controls eye movement to ensure clear vision while the head is in motion.Nowadays,VOR measurement is commonly done with a video head impulse test based on a velocity gain algorithm or a position gain algorithm,in which velocity gain is a VOR calculation on head and eye velocity,whereas position gain is calculated from head and eye position.The aim of this work is first to compare the two algorithms' performance and to detect covert catch-up saccade,then to propose a stand-alone recommendation application for the patient's diagnosis.In the first experiment,for ipsilesional and contralesional sides,the calculated position gain(0.94±0.17) is higher than velocity gain(0.84±0.19).Moreover,gain asymmetry of both lesion and intact sides using velocity gain is mostly higher than that from using position gain(four out of five subjects).Consequently,for subjects who have unilateral vestibular neuritis diagnosed from clinical symptoms and a vestibular function test,vestibular weakness is depicted by velocity gain much better than by position gain.Covert catch-up saccade and position gain then are used as inputs for recommendation applications.展开更多
The ever-decreasing size of transistors requires effectively electrostatic control over ultra-thin semiconductor body.Rational design of the gate configuration can fully persevere the intrinsic property of two-dimensi...The ever-decreasing size of transistors requires effectively electrostatic control over ultra-thin semiconductor body.Rational design of the gate configuration can fully persevere the intrinsic property of two-dimensional(2 D)semiconductors.Here we design and demonstrate a 2 D Mo S_(2) transistor with omega-shaped gate,in which the local gate coupling is enhanced by the non-planar geometry.The omega-shaped non-planar transistors exhibit a high current of 0.89 A/lm and transconductance of32.7 l S/lm.The high performance and desirable current saturation promise the construction of robust logic gate.The inverters show a voltage gain of 26.6 and an ideal total margin nearly 89%.We also assemble NOT-AND(NAND)gate on an individual Mo S_(2) flake,and the constructed NAND gate demonstrates the universal functionality of the transistors as well.This work provides an alternative strategy to fully take the advantages of 2 D materials for high-performance field-effect transistors.展开更多
基金supported by the MSIP (Ministry of Science,ICT and Future Planning),Korea,under the ITRC (Information Technology Research Center)support program (IITP-2016-H8501-16-1019) supervised by the IITP (Institute for Information & Communications Technology Promotion) and Inha University Research Grantsupported by the Basic Science Research Program through the National Research Foundation (NRF) of Korea funded by the Ministry of Education (2010-0020163)
文摘Vestibulo-ocular reflex(VOR) is an important biological reflex that controls eye movement to ensure clear vision while the head is in motion.Nowadays,VOR measurement is commonly done with a video head impulse test based on a velocity gain algorithm or a position gain algorithm,in which velocity gain is a VOR calculation on head and eye velocity,whereas position gain is calculated from head and eye position.The aim of this work is first to compare the two algorithms' performance and to detect covert catch-up saccade,then to propose a stand-alone recommendation application for the patient's diagnosis.In the first experiment,for ipsilesional and contralesional sides,the calculated position gain(0.94±0.17) is higher than velocity gain(0.84±0.19).Moreover,gain asymmetry of both lesion and intact sides using velocity gain is mostly higher than that from using position gain(four out of five subjects).Consequently,for subjects who have unilateral vestibular neuritis diagnosed from clinical symptoms and a vestibular function test,vestibular weakness is depicted by velocity gain much better than by position gain.Covert catch-up saccade and position gain then are used as inputs for recommendation applications.
基金supported by the National Key Research and Development Program of China(2018YFA0703704 and2018YFB0406603)China National Funds for Distinguished Young Scientists(61925403)+2 种基金the National Natural Science Foundation of China(61851403,51872084,61704052,61811540408,and61704051)the Strategic Priority Research Program of Chinese Academy of Sciences(XDB30000000)in partly by the Key Research and Development Plan of Hunan Province(2018GK2064)。
文摘The ever-decreasing size of transistors requires effectively electrostatic control over ultra-thin semiconductor body.Rational design of the gate configuration can fully persevere the intrinsic property of two-dimensional(2 D)semiconductors.Here we design and demonstrate a 2 D Mo S_(2) transistor with omega-shaped gate,in which the local gate coupling is enhanced by the non-planar geometry.The omega-shaped non-planar transistors exhibit a high current of 0.89 A/lm and transconductance of32.7 l S/lm.The high performance and desirable current saturation promise the construction of robust logic gate.The inverters show a voltage gain of 26.6 and an ideal total margin nearly 89%.We also assemble NOT-AND(NAND)gate on an individual Mo S_(2) flake,and the constructed NAND gate demonstrates the universal functionality of the transistors as well.This work provides an alternative strategy to fully take the advantages of 2 D materials for high-performance field-effect transistors.
