Melanoma is the deadliest type of skin cancer and which has a high ability of metastasis.Surgery is an effective method to treat I or II stage melanoma patients.However,there are few treatment options for metastatic m...Melanoma is the deadliest type of skin cancer and which has a high ability of metastasis.Surgery is an effective method to treat I or II stage melanoma patients.However,there are few treatment options for metastatic melanoma.Gene therapy is one of the attractive options and is considered as the future direction for treating melanoma.This review mainly discusses the properties and challenges of the various gene therapies in melanoma,especially the delivery systems and gene targeting.展开更多
With the increasing demand for multidirectional vibration measurements,traditional triaxial accelerometers cannot achieve vibration measurements with high sensitivity,high natural frequency,and low cross-sensitivity s...With the increasing demand for multidirectional vibration measurements,traditional triaxial accelerometers cannot achieve vibration measurements with high sensitivity,high natural frequency,and low cross-sensitivity simultaneously.Moreover,for piezoresistive accelerometers,achieving pure axial deformation of the piezoresistive beam can greatly improve performance,but it requires the piezoresistive beam to be located in a specific position,which inevitably makes the design more complex and limits the performance improvement.Here,a monolithically integrated triaxial high-performance accelerometer with pure axial stress piezoresistive beams was designed,fabricated,and tested.By controlling synchronous displacements at both piezoresistive beam ends,the pure axial stress states of the piezoresistive beams could be easily achieved with position independence without tedious calculations.The measurement unit for the z-axis acceleration was innovatively designed as an interlocking proof mass structure to ensure a full Wheatstone bridge for sensitivity improvement.The pure axial stress state of the piezoresistive beams and low cross-sensitivity of all three units were verified by the finite element method(FEM).The triaxial accelerometer was fabricated and tested.Results showing extremely high sensitivities(x axis:2.43 mV/g/5 V;y axis:2.44 mv/g/5 V;z axis:2.41 mV/g/5 V(without amplification by signal conditioning circuit))and high natural frequencies(x/y axes:11.4 kHz;z-axis:13.2 kHz)were obtained.The approach of this paper makes it simple to design and obtain high-performance piezoresistive accelerometers.展开更多
In this paper,a novel resonant pressure sensor is developed based on electrostatic excitation and piezoresistive detection.The measured pressure applied to the diaphragm will cause the resonant frequency shift of the ...In this paper,a novel resonant pressure sensor is developed based on electrostatic excitation and piezoresistive detection.The measured pressure applied to the diaphragm will cause the resonant frequency shift of the resonator.The working mode stress–frequency theory of a double-ended tuning fork with an enhanced coupling beam is proposed,which is compatible with the simulation and experiment.A unique piezoresistive detection method based on small axially deformed beams with a resonant status is proposed,and other adjacent mode outputs are easily shielded.According to the structure design,high-vacuum wafer-level packaging with different doping in the anodic bonding interface is fabricated to ensure the high quality of the resonator.The pressure sensor chip is fabricated by dry/wet etching,high-temperature silicon bonding,ion implantation,and wafer-level anodic bonding.The results show that the fabricated sensor has a measuring sensitivity of~19 Hz/kPa and a nonlinearity of 0.02%full scale in the pressure range of 0–200 kPa at a full temperature range of−40 to 80°C.The sensor also shows a good quality factor>25,000,which demonstrates the good vacuum performance.Thus,the feasibility of the design is a commendable solution for high-accuracy pressure measurements.展开更多
While enjoying the convenience brought by location-based services,mobile users also face the risk of leakage of location privacy.Therefore,it is necessary to protect location privacy.Most existing privacy-preserving m...While enjoying the convenience brought by location-based services,mobile users also face the risk of leakage of location privacy.Therefore,it is necessary to protect location privacy.Most existing privacy-preserving methods are based on K-anonymous and L-segment diversity to construct an anonymous set,but lack consideration of the distribution of semantic location on the road segments.Thus,the number of various semantic location types in the anonymous set varies greatly,which leads to semantic inference attack and privacy disclosure.To solve this problem,a privacy-preserving method is proposed based on degree of semantic distribution similarity on the road segment,ensuring the privacy of the anonymous set.Finally,the feasibility and effectiveness of the method are proved by extensive experiments evaluations based on dataset of real road network.展开更多
基金supported in part by the National Natural Science Foundation of China(52105589 and U1909221)in part by the China Postdoctoral Science Foundation(2021M692590)+2 种基金in part by the Beijing Advanced Innovation Center for Intelligent Robots and Systems(2019IRS08)in part by the Fundamental Research Funds for the Central Universities(China)(xzy012021009)in part by the State Key Laboratory of Robotics and Systems(HIT)(SKLRS2021KF17)。
基金the National Students’platform for innovation and entrepreneurship training program(No.201910291095Z,China).
文摘Melanoma is the deadliest type of skin cancer and which has a high ability of metastasis.Surgery is an effective method to treat I or II stage melanoma patients.However,there are few treatment options for metastatic melanoma.Gene therapy is one of the attractive options and is considered as the future direction for treating melanoma.This review mainly discusses the properties and challenges of the various gene therapies in melanoma,especially the delivery systems and gene targeting.
基金supported in part by the National Key Research&Development (R&D) Plan (2021YFB3203200)the National Natural Science Foundation of China (51890884,U1909221,52105481)the Chongqing Natural Science Basic Research Project (cstc2021jcyj-msxmX0801).
文摘With the increasing demand for multidirectional vibration measurements,traditional triaxial accelerometers cannot achieve vibration measurements with high sensitivity,high natural frequency,and low cross-sensitivity simultaneously.Moreover,for piezoresistive accelerometers,achieving pure axial deformation of the piezoresistive beam can greatly improve performance,but it requires the piezoresistive beam to be located in a specific position,which inevitably makes the design more complex and limits the performance improvement.Here,a monolithically integrated triaxial high-performance accelerometer with pure axial stress piezoresistive beams was designed,fabricated,and tested.By controlling synchronous displacements at both piezoresistive beam ends,the pure axial stress states of the piezoresistive beams could be easily achieved with position independence without tedious calculations.The measurement unit for the z-axis acceleration was innovatively designed as an interlocking proof mass structure to ensure a full Wheatstone bridge for sensitivity improvement.The pure axial stress state of the piezoresistive beams and low cross-sensitivity of all three units were verified by the finite element method(FEM).The triaxial accelerometer was fabricated and tested.Results showing extremely high sensitivities(x axis:2.43 mV/g/5 V;y axis:2.44 mv/g/5 V;z axis:2.41 mV/g/5 V(without amplification by signal conditioning circuit))and high natural frequencies(x/y axes:11.4 kHz;z-axis:13.2 kHz)were obtained.The approach of this paper makes it simple to design and obtain high-performance piezoresistive accelerometers.
基金This work was supported in part by the National Natural Science Foundation of China(Grant Nos.51890884,51421004,and 91748207)the Key Research and Development Project of Shaanxi Province(Grant No.2018ZDCXL-GY-02-02)+1 种基金the Shaanxi Province Natural Science Basic Research Project(2019JC-06)the 111 Program(Grant No.B12016).
文摘In this paper,a novel resonant pressure sensor is developed based on electrostatic excitation and piezoresistive detection.The measured pressure applied to the diaphragm will cause the resonant frequency shift of the resonator.The working mode stress–frequency theory of a double-ended tuning fork with an enhanced coupling beam is proposed,which is compatible with the simulation and experiment.A unique piezoresistive detection method based on small axially deformed beams with a resonant status is proposed,and other adjacent mode outputs are easily shielded.According to the structure design,high-vacuum wafer-level packaging with different doping in the anodic bonding interface is fabricated to ensure the high quality of the resonator.The pressure sensor chip is fabricated by dry/wet etching,high-temperature silicon bonding,ion implantation,and wafer-level anodic bonding.The results show that the fabricated sensor has a measuring sensitivity of~19 Hz/kPa and a nonlinearity of 0.02%full scale in the pressure range of 0–200 kPa at a full temperature range of−40 to 80°C.The sensor also shows a good quality factor>25,000,which demonstrates the good vacuum performance.Thus,the feasibility of the design is a commendable solution for high-accuracy pressure measurements.
基金This paper was supported by the National Natural Science Foundation of China under Grant No.61672039 and 61370050the Key Program of Universities Natural Science Research of the Anhui Provincial Department of Education under Grant No.KJ2019A1164.
文摘While enjoying the convenience brought by location-based services,mobile users also face the risk of leakage of location privacy.Therefore,it is necessary to protect location privacy.Most existing privacy-preserving methods are based on K-anonymous and L-segment diversity to construct an anonymous set,but lack consideration of the distribution of semantic location on the road segments.Thus,the number of various semantic location types in the anonymous set varies greatly,which leads to semantic inference attack and privacy disclosure.To solve this problem,a privacy-preserving method is proposed based on degree of semantic distribution similarity on the road segment,ensuring the privacy of the anonymous set.Finally,the feasibility and effectiveness of the method are proved by extensive experiments evaluations based on dataset of real road network.
