Patents by Inventor Jiangwei Zhao
Jiangwei Zhao has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11691795Abstract: A transportation tooling structure, a split electric motor module with the transportation tooling structure, and a transportation method are provided. The transportation tooling structure comprises: a split base plate, a stator support and a rotor support, wherein the lower end of the stator support is fixedly supported on the upper surface of the split base plate, and the upper end of the stator support is fixedly supported on the side of a split stator close to the split base plate; and the upper end of the rotor support is fixedly supported on the side of an end of a split rotor away from the split stator, and the lower end of the rotor support is fixedly supported on the side of the split stator away from the split base plate.Type: GrantFiled: July 8, 2020Date of Patent: July 4, 2023Assignee: XINJIANG GOLDWIND SCIENCE & TECHNOLOGY CO., LTD.Inventors: Jiangwei Zhao, Jiuyang Luo
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Publication number: 20230044643Abstract: A transportation tooling structure, a split electric motor module with the transportation tooling structure, and a transportation method are provided. The transportation tooling structure comprises: a split base plate, a stator support and a rotor support, wherein the lower end of the stator support is fixedly supported on the upper surface of the split base plate, and the upper end of the stator support is fixedly supported on the side of a split stator close to the split base plate; and the upper end of the rotor support is fixedly supported on the side of an end of a split rotor away from the split stator, and the lower end of the rotor support is fixedly supported on the side of the split stator away from the split base plate.Type: ApplicationFiled: July 8, 2020Publication date: February 9, 2023Applicant: XINJIANG GOLDWIND SCIENCE & TECHNOLOGY CO., LTD.Inventors: Jiangwei ZHAO, Jiuyang LUO
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Publication number: 20220410055Abstract: A filtering device, a generator and a wind turbine generator system are provided. The filtering device comprises a force-bearing cover plate, a surrounding plate, a first filter screen structure, a second filter screen structure and a filter cartridge; the force-bearing cover plate and the surrounding plate enclose an accommodation space for filling the filter cartridge, the surrounding plate forming at least a part of a side wall of the accommodation space; the first filter screen structure is provided on an upper side of the filter cartridge, is located on a lower side of the force-bearing cover plate, and substantially covers an upper side surface of the filter cartridge; and the second filter screen structure is provided at a lower side of the filter cartridge, and covers a lower side surface of the filter cartridge.Type: ApplicationFiled: August 25, 2020Publication date: December 29, 2022Applicant: BEIJING GOLDWIND SCIENCE & CREATION WINDPOWER EQUIPMENT CO., LTD.Inventor: Jiangwei ZHAO
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Patent number: 10169888Abstract: A background correction method for CT scan data is provided. A background collection may be performed to collect a first background data set and background data before a CT scan. The CT scan may then be performed to collect one or more CT scan data sets, and status information for collecting each of the CT scan data sets. A second background collection may additionally be performed to collect a second background data set after the CT scan, and status information for collecting the second background data set may also be recorded. The first background data set, the second background data set and corresponding status information may then be used to obtain a background data set for collecting each of the CT scan data sets. The corresponding background data set may be removed from each of the CT scan data set to obtain a background-corrected CT scan data set.Type: GrantFiled: June 10, 2016Date of Patent: January 1, 2019Assignee: Shenyang Neusoft Medical Systems Co., Ltd.Inventors: Shanshan Lou, Jiangwei Zhao
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Patent number: 10092267Abstract: A method for generating material hardening effect data is provided. Actual X-ray attenuation values of a universal phantom corresponding to different angles at each of channels may be obtained. Equivalent filtration thicknesses corresponding to each of the channels may be determined according to theoretical X-ray attenuation values and the actual X-ray attenuation values corresponding to different angles at each of the channels. Hardening effect data corresponding to a material may be generated according to a predetermined length of the material, a number of sampling points and the equivalent filtration thicknesses corresponding to each of the channels.Type: GrantFiled: December 17, 2015Date of Patent: October 9, 2018Assignee: SHENYANG NEUSOFT MEDICAL SYSTEMS CO., LTD.Inventors: Shanshan Lou, Gang Fang, Jiangwei Zhao
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Patent number: 10064596Abstract: A method for controlling an X-ray dose of a CT scan includes: setting an initial X-ray dose; performing a first CT scan with the initial X-ray dose to obtain an initial scan image; setting a region of interest (ROI) in the initial scan image; calculating a subsequent X-Ray dose with image values of the ROI in the initial scan image; perform an additional CT scan with the calculated subsequent X-Ray dose to obtain an average image; before receiving an end instruction, repeating the following operations: recalculating a subsequent X-Ray dose with image values of the ROI in the average image and performing an additional CT scan with the calculated subsequent X-Ray dose to obtain a new average image; and saving the average image when receiving the end instruction.Type: GrantFiled: September 24, 2015Date of Patent: September 4, 2018Assignee: Shenyang Neusoft Medical Systems Co., Ltd.Inventors: Shanshan Lou, Gang Fang, Jiangwei Zhao
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Patent number: 9861325Abstract: A method for restoring CT scan data is disclosed. The method may comprise: building a data collecting model with respect to a specific direction of a detector based a response curve of the detector. In some examples, the specific direction can indicate a channel direction and a slice direction of the detector. During a CT scanning, based on the data collecting model, X-ray intensity values detected by the detectors in the specific direction can be acquired. A function can be determined such that it satisfies the data collecting model, a continuity condition and a boundary condition, An X-ray intensity value can be obtained by substituting the coordinate value of a point in the specific direction into the function.Type: GrantFiled: November 13, 2015Date of Patent: January 9, 2018Assignee: SHENYANG NEUSOFT MEDICAL SYSTEMS CO., LTD.Inventors: Shanshan Lou, Jiangwei Zhao
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Publication number: 20170169587Abstract: A background correction method for CT scan data is provided. A background collection may be performed to collect a first background data set and background data before a CT scan. The CT scan may then be performed to collect one or more CT scan data sets, and status information for collecting each of the CT scan data sets. A second background collection may additionally be performed to collect a second background data set after the CT scan, and status information for collecting the second background data set may also be recorded. The first background data set, the second background data set and corresponding status information may then be used to obtain a background data set for collecting each of the CT scan data sets. The corresponding background data set may be removed from each of the CT scan data set to obtain a background-corrected CT scan data set.Type: ApplicationFiled: June 10, 2016Publication date: June 15, 2017Inventors: Shanshan Lou, Jiangwei Zhao
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Publication number: 20160183904Abstract: A method for generating material hardening effect data is provided. Actual X-ray attenuation values of a universal phantom corresponding to different angles at each of channels may be obtained. Equivalent filtration thicknesses corresponding to each of the channels may be determined according to theoretical X-ray attenuation values and the actual X-ray attenuation values corresponding to different angles at each of the channels. Hardening effect data corresponding to a material may be generated according to a predetermined length of the material, a number of sampling points and the equivalent filtration thicknesses corresponding to each of the channels.Type: ApplicationFiled: December 17, 2015Publication date: June 30, 2016Inventors: Shanshan LOU, Gang FANG, Jiangwei ZHAO
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Patent number: 9355437Abstract: A method and apparatus of image position compensation are provided. The method may include: measuring an actual height at Z position and a corresponding drop offset of a scanning table; adjusting, according to the drop offset of the scanning table, a vertical coordinate of an image center in the process of post-reconstruction, so as to obtain an adjusted image; and performing an interpolation process on coordinate information and pixel values of a row in the adjusted image, to obtain pixel values of a row in a target image. The target image is an image which has been processed by position compensation. According to the present disclosure, an image generated by a CT apparatus can be compensated to obtain a correct tomographic image and provide accurate image information for medical diagnosis.Type: GrantFiled: December 30, 2013Date of Patent: May 31, 2016Assignee: SHENYANG NEUSOFT MEDICAL SYSTEMS CO., LTD.Inventors: Shanshan Lou, Jiangwei Zhao
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Publication number: 20160135761Abstract: A method for restoring CT scan data is disclosed. The method may comprise: building a data collecting model with respect to a specific direction of a detector based a response curve of the detector. In some examples, the specific direction can indicate a channel direction and a slice direction of the detector. During a CT scanning, based on the data collecting model, X-ray intensity values detected by the detectors in the specific direction can be acquired. A function can be determined such that it satisfies the data collecting model, a continuity condition and a boundary condition, An X-ray intensity value can be obtained by substituting the coordinate value of a point in the specific direction into the function.Type: ApplicationFiled: November 13, 2015Publication date: May 19, 2016Inventors: Shanshan Lou, Jiangwei ZHAO
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Publication number: 20160089101Abstract: A method for controlling an X-ray dose of a CT scan includes: setting an initial X-ray dose; performing a first CT scan with the initial X-ray dose to obtain an initial scan image; setting a region of interest (ROI) in the initial scan image; calculating an subsequent X-Ray dose with image values of the ROI in the initial scan image; perform an additional CT scan with the calculated subsequent X-Ray dose to obtain an average image; before receiving an end instruction, repeating the following operations: recalculating an subsequent X-Ray dose with image values of the ROI in the average image and performing an additional CT scan with the calculated subsequent X-Ray dose to obtain a new average image; and saving the average image when receiving the end instruction.Type: ApplicationFiled: September 24, 2015Publication date: March 31, 2016Inventors: Shanshan Lou, Gang Fang, Jiangwei Zhao
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Patent number: 9232927Abstract: A method for collecting multi-energy CT data is provided. A method of reconstruction from multi-energy CT scan is further provided, in which data collection is performed on the first-class object at voltage values of m sampling points of the first-class voltage varied periodically, to obtain n sets of multi-energy first-class scan data {yi}; and a data collection is performed on a double-cylinder correction phantom at the voltage values of m sampling points to obtain combination coefficients, and thus obtaining corresponding combination coefficients Cifirstand Cisecondcorresponding to the case that the first-class scan data is collected in the ith projection angle at the first-class voltage; and the image vectors Xfirst and Xsecond are obtained by calculating a minimum value of the difference between the first-class scan data {yi} and the combination projection data CifirstPi*Xfirst+CisecondPi*Xsecond.Type: GrantFiled: August 23, 2013Date of Patent: January 12, 2016Assignee: SHENYANG NEUSOFT MEDICAL SYSTEMS CO., LTD.Inventors: Shanshan Lou, Jiangwei Zhao, Lixia Tong
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Patent number: 9196064Abstract: Image reconstruction method and device for tilted helical scan are provided. The method includes: acquiring data generated by the tilted helical scan; calculating a ray channel parameter and a slice number corresponding to each pixel position based on a geometric relationship that a ray of the tilted helical scan emitting from a ray source to a detector intersects with a pixel; and performing image reconstruction by using a three-dimensional helical back-projection method based on the acquired data, and the ray channel parameter and the slice number corresponding to each pixel position. With the method and device, there is no need to correct the raw data, which ensures the accuracy of the data, and the artifact is avoided, which ensures the accuracy of the reconstructed image.Type: GrantFiled: December 30, 2013Date of Patent: November 24, 2015Assignee: SHENYANG NEUSOFT MEDICAL SYSTEMS CO., LTD.Inventors: Shanshan Lou, Jiangwei Zhao
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Patent number: 9051407Abstract: Disclosed herein are polybutadiene grafted isoprene rubber, processes for preparing polybutadiene grafted isoprene rubber, mixed compositions and vulcanized forms thereof.Type: GrantFiled: August 19, 2013Date of Patent: June 9, 2015Assignees: China Petroleum & Chemical Corporation, Beijing Research Institute Of Chemical Industry, China Petroleum & Chemical CorporationInventors: Aimin Liang, Chuanqing Li, Wei Sun, Jie Zhang, Lin Xu, Ximing Xie, Guozhu Yu, Jiangwei Zhao, Yishuang Xin, Liangliang Yang, Jinmei Tan, Sufang Ouyang
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Publication number: 20150071515Abstract: Image reconstruction method and device for tilted helical scan are provided. The method includes: acquiring data generated by the tilted helical scan; calculating a ray channel parameter and a slice number corresponding to each pixel position based on a geometric relationship that a ray of the tilted helical scan emitting from a ray source to a detector intersects with a pixel; and performing image reconstruction by using a three-dimensional helical back-projection method based on the acquired data, and the ray channel parameter and the slice number corresponding to each pixel position. With the method and device, there is no need to correct the raw data, which ensures the accuracy of the data, and the artifact is avoided, which ensures the accuracy of the reconstructed image.Type: ApplicationFiled: December 30, 2013Publication date: March 12, 2015Applicant: Shenyang Neusoft Medical Systems Co., Ltd.Inventors: Shanshan LOU, Jiangwei Zhao
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Patent number: 8940838Abstract: The method for preparation of polyisoprene includes conducting polymerization reaction of isoprene in a first organic solvent under the presence of rare earth catalyst I and rare earth catalyst II, to obtain polyisoprene with bimodal molecular weight distribution, wherein the polymerization reaction conditions are controlled to ensure the peak molecular weight of the high molecular weight component fraction in the polyisoprene is 1×106-2×106 and the peak molecular weight of the low molecular weight component fraction is 2×105-4×105, and the weight ratio of content of the high molecular weight component fraction to the low molecular weight component fraction is 1-25:1. The molecular weight distribution of the polyisoprene obtained with the method provided is bimodal distribution; therefore, the polyisoprene not only has the mechanical properties of polyisoprene with high molecular weight, but also has the processability of polyisoprene with low molecular weight.Type: GrantFiled: May 28, 2013Date of Patent: January 27, 2015Assignees: China Petroleum & Chemcial Corporation, Beijing Research Institute of Chemical Industry, China Petroleum & Chemical CorporationInventors: Aimin Liang, Jie Zhang, Jiangwei Zhao, Chuanqing Li, Lin Xu, Ximing Xie, Guozhu Yu, Sufang Ouyang, Jinmei Tan, Liangliang Yang, Wei Sun, Yishuang Xin
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Publication number: 20150003705Abstract: A method and apparatus of image position compensation are provided. The method may include: measuring an actual height at Z position and a corresponding drop offset of a scanning table; adjusting, according to the drop offset of the scanning table, a vertical coordinate of an image center in the process of post-reconstruction, so as to obtain an adjusted image; and performing an interpolation process on coordinate information and pixel values of a row in the adjusted image, to obtain pixel values of a row in a target image. The target image is an image which has been processed by position compensation. According to the present disclosure, an image generated by a CT apparatus can be compensated to obtain a correct tomographic image and provide accurate image information for medical diagnosis.Type: ApplicationFiled: December 30, 2013Publication date: January 1, 2015Applicant: Shenyang Neusoft Medical Systems Co., Ltd.Inventors: Shanshan LOU, Jiangwei Zhao
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Publication number: 20140064441Abstract: A method for collecting multi-energy CT data is provided. A method of reconstruction from multi-energy CT scan is further provided, in which data collection is performed on the first-class object at voltage values of m sampling points of the first-class voltage varied periodically, to obtain n sets of multi-energy first-class scan data {1}; and a data collection is performed on a double-cylinder correction phantom at the voltage values of m sampling points to obtain combination coefficients, and thus obtaining corresponding combination coefficients Cfirsti and Csecondi corresponding to the case that the first-class scan data is collected in the ith projection angle at the first-class voltage; and the image vectors Xfirst and Xsecond are obtained by calculating a minimum value of the difference between the first-class scan data {yi} and the combination projection data CfirstiPi*Xfirst+Csecondi*Xsecond.Type: ApplicationFiled: August 23, 2013Publication date: March 6, 2014Applicant: Shenyang Neusoft Medical Systems Co., Ltd.Inventors: Shanshan LOU, Jiangwei ZHAO, Lixia TONG
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Publication number: 20140058044Abstract: Disclosed herein are polybutadiene grafted isoprene rubber, processes for preparing polybutadiene grafted isoprene rubber, mixed compositions and vulcanized forms thereof.Type: ApplicationFiled: August 19, 2013Publication date: February 27, 2014Applicants: Beijing Research Institute Of Chemical Industry, China Petroleum & Chemical Corporation, China Petroleum & Chemical CorporationInventors: Aimin LIANG, Chuanqing LI, Wei SUN, Jie ZHANG, Lin XU, Ximing XIE, Guozhu YU, Jiangwei ZHAO, Yishuang XIN, Liangliang YANG, Jinmei TAN, Sufang OUYANG