公开(公告)号：US10466372B2

公开(公告)日：2019-11-05

申请号：US14981953

申请日：2015-12-29

Applicant: TSINGHUA UNIVERSITY ,  NUCTECH COMPANY LIMITED

Inventor： Kejun Kang ,  Shuwei Li ,  Qingjun Zhang ,  Yuanjing Li ,  Yulan Li ,  Ziran Zhao ,  Yinong Liu ,  Yaohong Liu ,  Weibin Zhu ,  Xiaolin Zhao ,  Huishao He

IPC: G01T7/00 ,  G01T1/20 ,  H04N5/57 ,  G01T1/16 ,  H01L27/30 ,  H05G1/36 ,  G21K1/02 ,  G01T1/17 ,  G01V5/00 ,  H04N5/369 ,  G06T1/00

Abstract: The present invention discloses an X-ray beam intensity monitoring device and an X-ray inspection system. The X-ray beam intensity monitoring device comprises an intensity detecting module and a data processing module, wherein the intensity detecting module is adopted to be irradiated by the X-ray beam and send a detecting signal, the data processing module is coupled with the intensity detecting module to receive the detecting signal and output an X-ray beam intensity monitoring signal, wherein the X-ray beam intensity monitoring signal includes a dose monitoring signal for the X-ray beam and a brightness correction signal for correcting signal values of the X-ray beam. The X-ray beam intensity monitoring device can simultaneously perform dose monitoring and brightness monitoring, thereby improving the service efficiency of the X-ray beam intensity monitoring device. Moreover, the monitoring result of the X-ray beam intensity can be more accurate and reliable.

公开(公告)号：US10448904B2

公开(公告)日：2019-10-22

申请号：US16232072

申请日：2018-12-26

Applicant: TSINGHUA UNIVERSITY ,  NUCTECH COMPANY LIMITED

Inventor： Liang Li ,  Zhiqiang Chen ,  Kejun Kang ,  Ziran Zhao ,  Li Zhang ,  Yuxiang Xing ,  Tiao Zhao ,  Jianmin Li ,  Bicheng Liu ,  Qian Yi

IPC: G06K9/00 ,  A61B6/03 ,  G06T11/00 ,  A61B6/00

Abstract: The present disclosure provides a decomposition method based on basis material combination. In the present disclosure, a scanned object is divided into a plurality of regions, the basis material combinations used in each of the divided regions are different each other, and the scanned object is re-divided according to the re-determined equivalent atomic number of its each point until the change on decomposition coefficient meets certain conditions. Thereby, a decomposition method based on dynamic basis material combinations is realized, which reduces a decomposition error caused by improper selection of the basis material combination and improves the accuracy of the decomposition and substance identification of the multi-energy CT.

公开(公告)号：US10397491B2

公开(公告)日：2019-08-27

申请号：US14981947

申请日：2015-12-29

Applicant: NUCTECH COMPANY LIMITED

Inventor： Mingliang Li ,  Yuanjing Li ,  Jianmin Li ,  Ying Li ,  Zhiqiang Chen ,  Kejun Kang

IPC: G06T7/60 ,  H04N5/247 ,  G01C11/06 ,  G01P3/68 ,  G01B11/04 ,  G06T7/292

Abstract: The present invention relates to a photogrammetry system and method. The photogrammetry system comprises: photographing devices capable of photographing an object at a predetermined time interval; and, a data processing device capable of calculating an actual length of the object or a certain portion on the object according to a length of the object or a certain portion on the object in the images obtained by the photographing devices and a distance of the object in the two images, wherein the object moves at a speed V; the photographing devices photograph the object for two times at a time interval t; the distance of the object in the two images obtained by the two times of photographing is Dp; the length of the object or a certain portion on the object in the images is Lp; and, the actual length L of the object or a certain portion on the object may be obtained by the following formula: L = Lp × Vt Dp .

公开(公告)号：US10302578B2

公开(公告)日：2019-05-28

申请号：US15494884

申请日：2017-04-24

Applicant: Tsinghua University ,  Nuctech Company Limited

Inventor： Liang Li ,  Zhiqiang Chen ,  Kejun Kang ,  Li Zhang ,  Ziran Zhao ,  Yuxiang Xing ,  Jianmin Li ,  Yulan Li ,  Tiao Zhao

IPC: G01N23/046 ,  G01N23/087

Abstract: Methods and system for decomposing a high-energy dual-energy X-ray CT material are disclosed. In the method, two types of effect such as Compton effect and electron pairing effect which dominates are reserved and the influence of the other effect such a photoelectric effect is removed so as to improve the accuracy of the material decomposition. The unique advantage of the present disclosure is to effectively remove the error of the calculated atomic number Z due to directly selecting two effects during processes of material decomposition in the conventional dual-energy CT method. This may greatly improve the accuracy of dual-energy CT identification of the material, and it is important to improve the conventional dual-use CT imaging system applications, such as clinical therapy, security inspection, industrial non-destructive testing, customs anti-smuggling and other fields.

公开(公告)号：US10088595B2

公开(公告)日：2018-10-02

申请号：US14399566

申请日：2014-07-31

Applicant: Tsinghua University ,  Nuctech Company Limited

Inventor： Kejun Kang ,  Jianmin Li ,  Jingyu Gu ,  Yuanjing Li ,  Yulan Li ,  Yaohong Liu ,  Zhen Tan ,  Yucheng Wu ,  Weizhen Wang

IPC: G01V5/00 ,  G01N23/04 ,  B64F5/60 ,  H01J37/02 ,  H01L27/146 ,  G01N23/10

Abstract: The present disclosure provides a system and method for inspecting an aircraft. An X-ray/Gamma ray radiation source and a detector are located at above and below a fuselage of an aircraft, respectively. The X-ray/Gamma ray radiation source emits a beam of radiation[ ], wherein the X-ray/Gamma ray radiation[ ] passes through the aircraft to be inspected. The detector receives and converts the beam of X-ray/Gamma ray radiation[ ] that has passed through the aircraft to an output signal, and the system generates a vertical transmission image in real time.

公开(公告)号：US20180038970A1

公开(公告)日：2018-02-08

申请号：US15597003

申请日：2017-05-16

Applicant: Tsinghua University ,  NUCTECH COMPANY LIMITED

Inventor： Liang Li ,  Zhiqiang Chen ,  Li Zhang ,  Ziran Zhao ,  Yuxiang Xing ,  Kejun Kang ,  Lan Zhang ,  Ruizhe Li

IPC: G01T7/00 ,  G01N23/223

CPC classification number: G01T7/005 ,  G01N23/223 ,  G01N2223/076 ,  G01N2223/303

Abstract: A method and apparatus for reconstructing an incident energy spectrum for a detector are disclosed. In this method, an object to be inspected is illuminated with rays, and then rays transmitted through the object to be inspected are received by the detector to convert the received rays into data of a detected energy spectrum. The incident energy spectrum for the detector is reconstructed based on the data of the energy spectrum using a statistical iterative algorithm with a pre-established detector response function. With the above solution of the embodiments, the incident energy spectrum for the detector can be more accurately acquired, thereby reducing a distortion of the incident energy spectrum caused by the detector.

公开(公告)号：US20170299762A1

公开(公告)日：2017-10-19

申请号：US15289206

申请日：2016-10-10

Applicant: NUCTECH COMPANY LIMITED ,  Tsinghua University

Inventor： Kejun Kang ,  Yaohong Liu ,  Ziran Zhao ,  Wei Jia ,  Jianping Gu ,  Chuanxiang Tang ,  Huaibi Chen ,  Jianjun Gao ,  Wei Yin ,  Xiying Liu

IPC: G01V5/00 ,  G01N23/04

CPC classification number: G01V5/0016 ,  G01N23/04 ,  G01T1/29

Abstract: This invention provides a scan method, scan system and radiation scan controller, and relates to the field of radiation. Wherein, the scan method of this invention comprises: obtaining detection data of an object to be inspected under radiation scanning using a detector; adjusting an accelerator output beam dose rate and/or an output electron beam energy level of a radiation emission device according to the detection data. With this method, working conditions of the accelerator of the radiation emission device may be adjusted according to the detection data detected by the detector, so that for a region having a larger mass thickness, a higher output beam dose rate or a higher electron beam output energy level is adopted to guarantee satisfied imaging technical indexes, for a region having a smaller mass thickness, a lower output beam dose rate or a lower electron beam output energy level is adopted to reduce the environmental dose level while guaranteeing satisfied imaging technical indexes.

公开(公告)号：US09620325B2

公开(公告)日：2017-04-11

申请号：US14758768

申请日：2013-10-31

Applicant: TSINGHUA UNIVERSITY ,  NUCTECH COMPANY LIMITED

Inventor： Kejun Kang ,  Chuanxiang Tang ,  Ziran Zhao ,  Zhe Zhang

IPC: A61B6/00 ,  H01J35/14 ,  H05G1/10 ,  G01N23/04 ,  A61B6/03

CPC classification number: H01J35/14 ,  A61B6/032 ,  A61B6/4028 ,  A61B6/4275 ,  F04C2270/041 ,  G01N23/046 ,  G01N2223/419 ,  H05G1/10

Abstract: CT Devices and methods thereof are disclosed. The CT device comprises an electron beam generation unit, a circular reflection target (9) and a circular detector array. The electron beam generation unit comprises an electron gun (7), a deflection scanning unit and a restrictor (16), wherein the electron gun (7) generates electron beams, the deflection scanning unit deflects the electron beams with a deflection direction varying as time so as to implement a circular scanning, and the restrictor (16) has a plurality of circularly distributed holes, and wherein when the electron beams scan along the circularly distributed holes, a plurality of electron beams that are distributed circularly are output. The circular reflection target (9) is disposed to be coaxial with the circularly distributed electron beams, wherein the circularly distributed electron beams bombard the circular reflection target (9) to generate X-rays that intersect the axis of the circularly distributed electron beams. The circular detector array (11) is disposed to be coaxial with the circular reflection target and includes a plurality of detection units which receive the X-rays after they have passed through an object to be detected (10).

公开(公告)号：US11054542B2

公开(公告)日：2021-07-06

申请号：US16946953

申请日：2020-07-13

Applicant: Tsinghua University ,  Nuctech Company Limited

Inventor： Kejun Kang ,  Huaibi Chen ,  Yaohong Liu ,  Chuanxiang Tang ,  Yuanjing Li ,  Hao Zha ,  Liang Zhang

IPC: G01V5/00

Abstract: Embodiments of the disclosure provide a multi-ray-source accelerator and an inspection method. The multi-ray-source accelerator includes: a plurality of acceleration tubes, each acceleration tube of the plurality of acceleration tubes including an acceleration tube body that defines at least one cavity, the plurality of acceleration tubes being arranged in at least one row along a straight line or an arc and connected in series with each other; and a microwave unit configured to provide a microwave field to the plurality of acceleration tubes. The plurality of acceleration tubes are arranged to allow the microwave unit to provide the microwave field from an acceleration tube at one end of the plurality of acceleration tubes so as to accelerate electron beams in cavities of all the acceleration tubes.

公开(公告)号：US10935691B2

公开(公告)日：2021-03-02

申请号：US16234625

申请日：2018-12-28

Applicant: TSINGHUA UNIVERSITY ,  NUCTECH COMPANY LIMITED

Inventor： Kejun Kang ,  Jianmin Li ,  Xiulin Ni ,  Yulan Li ,  Yuanjing Li ,  Zhiqiang Chen ,  Li Zhang ,  Liang Li ,  Xiang Zou ,  Weifeng Yu ,  Hejun Zhou ,  Chunguang Zong

IPC: G01V5/00 ,  G01N23/046

Abstract: The present disclosure relates to the technical field of CT detection, and in particular to a CT inspection system and a CT imaging method. The CT inspection system provided by the present disclosure comprises a radioactive source device, a detection device, a rotation monitoring device and an imaging device, wherein the detection device obtains detection data at a frequency that is N times a beam emitting frequency of the radioactive source device; the rotation monitoring device detects a rotation angle of the detection device and transmits a signal to the imaging device each time the detection device rotates by a preset angle; the imaging device determines a rotational position of the detection device each time the radioactive source device emits a beam according to the signal transmitted by the rotation monitoring device and the detection data of the detection device.