Patents Assigned to Jilin University
-
Publication number: 20210175411Abstract: A micro-vibration sensor and preparation method thereof. The method includes a metal sheet is coated with first curing material, and first curing material is cured into first cured layer; piezoelectric thin film element is attached to edge of first cured layer; one side, attached with piezoelectric thin film element, of first cured layer is vertically placed into second curing material, and second curing material is cured into second cured layer; and metal sheet is removed to obtain micro-vibration sensor. Due to fact that piezoelectric thin film element is arranged at a crack tip, during micro-vibration, stress in stress field of crack tip is rapidly increased due to crack stress deformation, and stress signal is efficiently converted into electric signal; and micro-vibration sensor has characteristics of being low in detection limit and high in accuracy.Type: ApplicationFiled: October 31, 2019Publication date: June 10, 2021Applicant: JILIN UNIVERSITYInventors: Zhiwu HAN, Kejun WANG, Honglie SONG, Junqiu ZHANG, Daobing CHEN, Linpeng LIU, Binjie ZHANG, Tao SUN, Dakai WANG, Changchao ZHANG
-
Patent number: 10919762Abstract: The present invention provides a preparation method of amorphous GeH, and belongs to the field of preparation technologies of amorphous GeH. The preparation method provided in the present invention includes the following step: sealing crystalline GeH, a pressure calibration object, and a pressure transmitting medium in a cavity of a diamond anvil cell, and adjusting pressure in the cavity to obtain amorphous GeH. In the present invention, pressure is applied to the GeH in the sealed diamond anvil cell, to implement amorphization of the GeH at room temperature. In this way, impurities can hardly be found in the preparation method, and pure amorphous GeH can be obtained. In addition, the method provided in the present invention has simple operations and good repeatability.Type: GrantFiled: January 17, 2020Date of Patent: February 16, 2021Assignee: Jilin UniversityInventors: Quanjun Li, Xiaoling Jing, Haiyang Zhao, Yi Du, Bingbing Liu
-
Publication number: 20200412522Abstract: A method for sequentially encrypting and decrypting singly linked lists based on double key stream ciphers comprises: establishing a plaintext set M according to a plaintext file; using the plaintext set M as an initial value and performing iterative decryption to obtain a ciphertext set C, wherein a key set P and an algorithm set A are used during the iterative decryption; for the ciphertext set C, performing multiple decryptions by calling the key set P and calling keys in the key set P, wherein a key set P and an algorithm set A are used during the decryptions; and, converting the obtained result of decryption into a plaintext file.Type: ApplicationFiled: June 29, 2018Publication date: December 31, 2020Applicants: Zhuhai College of Jilin University, Jilin UniversityInventors: Yujuan SI, Liuqi LANG
-
Patent number: 10850637Abstract: An electrified railway power supply system without negative sequence in the whole process and without power supply networks at intervals, can comprise an external power supply system, an input power supply system from external to internal, and an internal power supply system. For external power supply, single-phase power supply is changed to double-phase power supply, and power of a single phase is input to the power supply system within the train via a contactor on a left arm and a right arm of a double-phase pantograph. No neutral section for passing of phase separation is provided in the whole process of operation, and a plurality of sections in the whole process are provided with no power supply network at intervals, and the motor train unit can operate normally without mechanical support for the power supply network.Type: GrantFiled: August 13, 2015Date of Patent: December 1, 2020Assignee: JILIN UNIVERSITYInventors: Yuquan Song, Xiaofang Guan
-
Publication number: 20200371207Abstract: A multi-target dynamic simulation test system for vehicle-mounted millimeter-wave (MMW) radar. The test system includes an antenna turntable, a radar pan-and-tilt head (PTH), a radar echo simulation module, a control module, a signal acquisition module and a display. A test radar is driven by the radar PTH to pan or tilt. The radar PTH and the test radar are both placed in a darkroom module. An antenna is driven by the antenna turntable to pan. The control module sends expected states of the test radar and the antennas to the radar PTH and the antenna turntable, respectively, and sends relative states between host vehicle and virtual targets to the test radar after processing by the radar echo simulation module. The signal acquisition module acquires and stores a detection signal of the test radar, and transmits the detection signal of the test radar to the display for real-time display.Type: ApplicationFiled: May 18, 2020Publication date: November 26, 2020Applicant: Jilin UniversityInventors: Kunyang Cai, Ting Qu, Bingzhao Gao, Wenqi Qu, Sihan Liu
-
Patent number: 10814720Abstract: A centralized full-time electric four-wheel drive system, including: a housing; a central differential; a main drive unit, whose power output gear meshes with the ring gear of the central differential; a dual-rotor motor having a first and a second output gear at either end; a rear-axle differential; a first planetary gearset (PG), whose sun gear and ring gear connect to the carrier of the central differential and the housing respectively; a second PG with common carrier of the first PG, whose sun gear connects to the sun gear of the central differential and ring gear meshes with the first output gear; a third PG, whose sun gear and ring gear connect to the semi-axle of the rear-axle differential and the housing respectively; a forth PG with common carrier of the third PG, whose sun gear connects to the rear-axle differential cage and ring gear meshes with the second output gear.Type: GrantFiled: March 18, 2019Date of Patent: October 27, 2020Assignee: Jilin UniversityInventors: Junnian Wang, Bin Yang
-
Patent number: 10809169Abstract: A system for in-situ testing of mechanical properties of materials in static and dynamic load spectra, that includes: an Arcan biaxial clamping subsystem, a press-in test subsystem, a biaxial fatigue test subsystem, a biaxial pre-tension loading subsystem, a signal detection subsystem, and a support and adjustment subsystem. A combined guide mechanism in the Arcan biaxial clamping subsystem is rigidly connected to a guide mechanism support block, an x-direction three sensor base and a y-direction force sensor base in the support and adjustment subsystem by threaded connections, respectively. A laser transmitter, a voice coil motor and a laser receiver in the press-in test subsystem are rigidly connected to a two-degree-of-freedom electric moving platform for the laser transmitter, a two-degree-of-freedom electric moving platform for the voice coil motor and a two-degree-of-freedom electric moving platform for the laser receiver in the support and adjustment subsystem by threaded connections, respectively.Type: GrantFiled: October 12, 2016Date of Patent: October 20, 2020Assignee: JILIN UNIVERSITYInventors: Zhichao Ma, Hongwei Zhao, Luquan Ren, Shizhong Zhang, Jingshi Dong, Zunqiang Fan, Daining Fang, Jingchun Ma, Yongmao Pei, Qixun Zhang, Hui Fan, Qingwei Zhuang
-
Publication number: 20200319334Abstract: The invention provides a millimeter wave radar modeling-based method for object visibility determination, to solve the problem of object visibility determination based on virtual sensor modeling in intelligent vehicle simulation and testing, and improve the fidelity of sensor modeling while meeting simulation efficiency requirements. It includes the steps of target vehicle information detection to obtain target vehicle information; target vehicle reflection intensity simulation: for each target vehicle performing geometry culling on the target vehicle, discarding completely-invisible target vehicles, and calculating visible section information for each target vehicle that has a visible section, and reflection intensity calculation; target vehicle visibility determination: analyzing visibility of the target vehicle according to the target vehicle reflection intensity, and converting and outputting information of a visible object into an expression form of a real millimeter-wave radar sensing an object.Type: ApplicationFiled: March 20, 2020Publication date: October 8, 2020Applicant: JILIN UNIVERSITYInventors: Jun ZHAN, Xuecai DONG, Chunguang DUAN, Zhangu WANG, Rong LIU, Kai YANG, Huainan ZHU
-
Patent number: 10724300Abstract: The present invention relates to a downhole drilling tool system of torque self-balancing and belongs to a technical field of drilling engineering equipment. The drilling tool system consists of an assembly of internal and external drill bits, power components, a pressure adjustment system for internal and external drill bits, a mud circulating system, and an unfreezing system.Type: GrantFiled: February 16, 2018Date of Patent: July 28, 2020Assignee: Jilin UniversityInventors: Ke Gao, Youhong Sun, Zhigang Wang, Yan Zhao, Kun Bo, Xiaobo Xie, Haiyong Wang, Xiaochu Wang, Zhao Liu, Yafei Wang, Hangkai Chen, Saiyu Peng, Yingchao Xu, Lidong Xing
-
Publication number: 20200213080Abstract: A method for sequentially encrypting and decrypting doubly linked lists based on double key stream ciphers comprises: establishing a plaintext set M according to a plaintext file; using the plaintext set M as an initial value and performing iterative decryption to obtain a ciphertext set C, wherein a key set P and an algorithm set A are used during the iterative decryption; for the ciphertext set C, performing multiple decryptions by calling the key set P and keys in the key set P, wherein a key set P and an algorithm set A are used during the decryptions; and, converting the obtained result of decryption into a plaintext file.Type: ApplicationFiled: June 29, 2018Publication date: July 2, 2020Applicants: Zhuhai College of Jilin University, Jilin UniversityInventors: Yujuan Si, Liuqi Lang
-
Method for random noise reduction from MRS oscillating signal using joint algorithms of EMD and TFPF
Patent number: 10677957Abstract: The instant invention relates to a method for noise reduction from a magnetic resonance sounding (MRS) oscillating signal, and more particularly, to a data processing method for reducing random noise contained in MRS oscillating signal based on joint algorithm principles of EMD and TFPF. A MRS oscillating signal is decomposed into different eigen-mode components by using decomposition characteristic of EMD algorithm; then a signal-dominated eigen-mode component is encoded as an instantaneous frequency of an analytical signal of unit amplitude using TFPF algorithm; and random noise is suppressed with the characteristics that the time-frequency distribution of the analytical signal is concentrated along with the instantaneous frequency. The method requires fewer filtering constraints and is simple to operate without need of designing a filtering interval in the time-frequency domain, and has good adaptability to the MRS oscillating signal with a low signal-noise-ratio.Type: GrantFiled: April 3, 2018Date of Patent: June 9, 2020Assignee: Jilin UniversityInventors: Tingting Lin, Yang Zhang, Yue Li, Ling Wan, Jun Lin -
Publication number: 20200124510Abstract: A system for in-situ testing of mechanical properties of materials in static and dynamic load spectra, that includes: an Arcan biaxial clamping subsystem, a press-in test subsystem, a biaxial fatigue test subsystem, a biaxial pre-tension loading subsystem, a signal detection subsystem, and a support and adjustment subsystem. A combined guide mechanism in the Arcan biaxial clamping subsystem is rigidly connected to a guide mechanism support block, an x-direction force sensor base and a y-direction force sensor base in the support and adjustment subsystem by threaded connections, respectively. A laser transmitter, a voice coil motor and a laser receiver in the press-in test subsystem are rigidly connected to a two-degree-of-freedom electric moving platform for the laser transmitter, a two-degree-of-freedom electric moving platform for the voice coil motor and a two-degree-of-freedom electric moving platform for the laser receiver in the support and adjustment subsystem by threaded connections, respectively.Type: ApplicationFiled: October 12, 2016Publication date: April 23, 2020Applicant: JILIN UNIVERSITYInventors: Zhichao Ma, Hongwei Zhao, Luquan Ren, Shizhong Zhang, Jingshi Dong, Zunqiang Fan, Daining Fang, Jingchun Ma, Yongmao Pei, Qixun Zhang, Hui Fan, Qingwei Zhuang
-
Patent number: 10588955Abstract: Provided are a fusion protein of a pneumococcal surface adhesin A (PsaA) and a pneumococcal surface protein A (PspA), and preparation method and use thereof. Also provide are a nucleic acid for encoding the protein, carrier and cell for expressing the protein, and vaccine composition comprising the protein.Type: GrantFiled: March 29, 2016Date of Patent: March 17, 2020Assignees: Changchun BCHT Biotechnology Co., Jilin UniversityInventors: Wei Kong, Yongge Wu, Jingcai Lu, Tianxu Sun, Man Xu, Dandan Wang, Hongjia Hou, Yunliang Dong
-
Patent number: 10560687Abstract: A LED-based integral imaging display system as well as its control method and device, including: a parameter matching step: matching the parameters of the lenslet array and LED in the display part of said LED-based integral imaging display system to obtain the display parameters. The display parameters include the basic parameters of the display part, and the corresponding optical imaging models, which match with the basic parameters, in different stereoscopic display modes. A video source acquisition step: according to the display parameters, acquiring the integral imaging video sources required by LED-based integral imaging naked-eye stereoscopic display, which is used for the to-be-displayed 3D image.Type: GrantFiled: May 14, 2018Date of Patent: February 11, 2020Assignee: Jilin UniversityInventors: Shigang Wang, Wei Wu, Jian Wei, Yan Zhao, Meilan Piao, Tianshu Li, Henan Li, Lizhong Zhang, Bowen Jia
-
Patent number: 10444130Abstract: Provided are a material in-situ test device and method under multi-load and multi-physical field coupled service conditions. The device is composed of a precise six-degree-of-freedom composite load applying module, a precise torsion module, a precise indentation module, a clamp module and a control module which work together to complete a composite-load and multi-physical field coupled experiment, and is integrated with a digital speckle strain measurement and infrared thermal imaging module and a microscope observation module, so as to carry out in-situ observation and quantitative characterization on material deformation behaviors and damage mechanism phenomena in a composite-load and multi-physical field loading process. For example, loading methods of “cantilever type pure bending, cantilever type tension/compression-torsion, and cantilever type bending-torsion”, etc. can realize the loading of composite load.Type: GrantFiled: September 24, 2015Date of Patent: October 15, 2019Assignee: JILIN UNIVERSITYInventors: Hongwei Zhao, Shizhong Zhang, Luquan Ren, Ning Li, Xiaohang Dai, Shunbo Wang, Zhanwei Huo, Yang Liu, Daining Fang, Yongmao Pei
-
Patent number: 10435317Abstract: Metal-free materials, manufacturing thereof, method using thereof for (in-situ or ex-situ) catalytically treating contaminated soil or waters, including remediation of groundwater contaminated by haloalkenes, haloalkanes, nitro-compounds, and nitrophenol using sulfide as a reductant. Metal-free materials are manufactured with industrial scrap syrup or biomass. Method using the metal-free materials for in-situ treatment consists with the processes of adding materials into the contaminated medium, introducing sulfide into the contaminated medium, and reductive reacting contaminants with sulfide catalyzed by the metal-free materials. Specially, the formation of in-situ reaction zone is the key point of in situ treatment by retaining the catalyst in the contaminated medium.Type: GrantFiled: March 1, 2017Date of Patent: October 8, 2019Assignee: Jilin UniversityInventors: Na Liu, Longzhen Ding, Pengpeng Zhang
-
Patent number: 10345474Abstract: An anti-saturation device for a ground magnetic resonance signal amplifying circuit has a receiving coil connected with a band-pass filter circuit through a pre-amplifying circuit and a programmable amplifying circuit. The programmable amplifying circuit is connected with an AD acquisition card through the band-pass filter circuit. The band-pass filtering circuit is connected with a computer through the AD acquisition card, and the AD acquisition card is connected with an emitting system through the computer. An automatic amplification factor adjusting module is embedded into a nuclear magnetic resonance detector, and can also directly replace a receiving amplification circuit of the nuclear magnetic resonance detector to work independently.Type: GrantFiled: February 24, 2017Date of Patent: July 9, 2019Assignee: Jilin UniversityInventors: Tingting Lin, Yang Zhang, Xu Shu, Jun Lin, Ling Wan, Jing Zhao, Xin Cai
-
Publication number: 20190207745Abstract: The invention discloses a sequential encryption method based on multi-key stream ciphers, comprising the following steps of: acquiring plaintext data, and storing the acquired plaintext data in the form of a circular linked list; storing a plurality of key sequences in the form of a circular linked list, respectively; performing a bitwise operation on the key sequences according to a specified starting bit to generate a stream random sequence; and, reconstructing the plaintext data according to the stream random sequence to generate encrypted ciphertext data. The method of the invention is simple in encryption and decryption, difficult to decipher, easy to implement by a computer without auxiliary hardware devices, fast in encryption and decryption speed, strong in the diffusion property of the generated ciphertext, and good in anti-interception performance and the like.Type: ApplicationFiled: April 13, 2018Publication date: July 4, 2019Applicant: Zhuhai College of Jilin UniversityInventors: Yujuan SI, Liuqi LANG, Guanghui FENG, Jialiang CHEN
-
Patent number: 10310131Abstract: Provided are a surface nuclear magnetic resonance system excited by a geoelectric field and a field working method for groundwater detection. A computer is connected to a synchronization module via a transmitter. The transmitter is connected to a first electrode and a second electrode via a transmission line. Receiving coils are symmetrically arranged on two sides of the transmission line. Each of the receivers is mounted with two receiving coils. The computer is connected to a fourth receiver via a first receiver, a second receiver, a third receiver, a sixth receiver and a fifth receiver, and the synchronization module is connected to the first receiver, the second receiver, the third receiver, the fourth receiver, the fifth receiver and the sixth receiver.Type: GrantFiled: October 27, 2017Date of Patent: June 4, 2019Assignee: JILIN UNIVERSITYInventors: Tingting Lin, Yang Zhang, Ying Yang, Hongyu Wang, Kun Zhou, Ling Wan
-
METHOD FOR RANDOM NOISE REDUCTION FROM MRS OSCILLATING SIGNAL USING JOINT ALGORITHMS OF EMD AND TFPF
Publication number: 20190120995Abstract: The instant invention relates to a method for noise reduction from a magnetic resonance sounding (MRS) oscillating signal, and more particularly, to a data processing method for reducing random noise contained in MRS oscillating signal based on joint algorithm principles of EMD and TFPF. A MRS oscillating signal is decomposed into different eigen-mode components by using decomposition characteristic of EMD algorithm; then a signal-dominated eigen-mode component is encoded as an instantaneous frequency of an analytical signal of unit amplitude using TFPF algorithm; and random noise is suppressed with the characteristics that the time-frequency distribution of the analytical signal is concentrated along with the instantaneous frequency. The method requires fewer filtering constraints and is simple to operate without need of designing a filtering interval in the time-frequency domain, and has good adaptability to the MRS oscillating signal with a low signal-noise-ratio.Type: ApplicationFiled: April 3, 2018Publication date: April 25, 2019Applicant: Jilin UniversityInventors: Tingting Lin, Yang Zhang, Yue Li, Ling Wan, Jun Lin