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公开(公告)号:US20150332486A1
公开(公告)日:2015-11-19
申请号:US14708866
申请日:2015-05-11
发明人: Li Zhang , Zhiqiang Chen , Le Shen , Yuxiang Xing , Xin Jin , Qingping Huang
CPC分类号: G06T11/006 , A61B6/027 , A61B6/032 , A61B6/4085 , A61B6/4266 , A61B6/5205 , G06T7/0012 , G06T2207/10081 , G06T2207/30004 , G06T2211/421
摘要: The present disclosure discloses a spiral CT system and a reconstruction method thereof. In some embodiments, it is proposed that data missing due to a large pitch is compensated by weighting the complementary projection data of the projection data obtained using the spiral CT system. After the data is complemented, the projection data is rebinned as cone parallel beam data, cone-angle cosine weighting and one-dimensional filtering are implemented on the rebinned data, and parallel beam back projection is finally implemented on the filtered data, to obtain the reconstructed images. In some embodiments, with the above method, the speed of the belt can be increased by more than one time in a case that the existing area of the detectors and the existing speed of the slip ring are unchanged, thereby improving the pass rate of the luggage and maintaining the quality of the reconstructed images unchanged.
摘要翻译: 本公开公开了一种螺旋CT系统及其重建方法。 在一些实施例中,提出通过对使用螺旋CT系统获得的投影数据的互补投影数据进行加权来补偿由于大音调而丢失的数据。 数据补充后,将投影数据重新设置为锥形平行光束数据,对重定位数据进行锥角余弦加权和一维滤波,最后在滤波数据上实现平行光束反投影,获得 重建图像。 在一些实施例中,利用上述方法,在检测器的现有区域和滑环的现有速度不变的情况下,带的速度可以增加多于一次,从而提高了传感器的通过率 行李保持重建图像的质量不变。
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公开(公告)号:US20150185153A1
公开(公告)日:2015-07-02
申请号:US14575381
申请日:2014-12-18
发明人: Li Zhang , Li Jiang , Jianhong Zhang , Hongqiu Wang , Yumin Yi
IPC分类号: G01N21/65
CPC分类号: G01N21/65 , G01N21/658
摘要: Embodiments of the present invention disclose a pesticide residue detection method, comprising the steps: (a) irradiating a sample to be detected by an exciting light and collecting a Raman scattered light from the sample; (b) acquiring a Raman spectrum of the sample from the collected Raman scattered light; and (c) comparing the Raman spectrum with reference Raman spectra for known pesticides in a reference Raman library to determine composition and concentration of the pesticide residue in the sample. The method may achieve effective, convenient and accurate inspection of the pesticide residue in foods, in particular suitable for rapid detection.
摘要翻译: 本发明的实施方式公开了农药残留检测方法,其特征在于,包括以下步骤:(a)用激发光照射被检测体,从所述样品收集拉曼散射光; (b)从所收集的拉曼散射光中获取样品的拉曼光谱; 和(c)将参考拉曼文库中的已知农药的拉曼光谱与参考拉曼光谱进行比较,以确定样品中农药残留的组成和浓度。 该方法可以有效,方便,准确地检测食品中的农药残留,特别适合快速检测。
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公开(公告)号:US09020279B2
公开(公告)日:2015-04-28
申请号:US14146263
申请日:2014-01-02
发明人: Li Zhang , Zhiqiang Chen , Jia Hao
CPC分类号: G06K9/6202 , G06T5/50 , G06T2211/408
摘要: Provided are image processing method and apparatus. The method includes selecting one of a plurality of images matched in structure as reference image, and select another of the images as subject image; for a subject pixel in the subject image, determining a pixel corresponding to the subject pixel in the reference image; calculating similarity values of at least part of pixels in the reference image with respect to the pixel corresponding to the subject pixel; establishing weight coefficients based on the similarity values, and weighted averaging the subject pixel in the subject image to obtain a processed pixel value. With the above solutions, it is possible to use structure information of a higher-quality image in processing another image, and thus improve quality of the other image.
摘要翻译: 提供图像处理方法和装置。 该方法包括选择结构中匹配的多个图像中的一个作为参考图像,并且选择另一个图像作为被摄体图像; 对于所述被摄体图像中的被摄体像素,确定与所述参考图像中的所述被摄体像素相对应的像素; 计算参考图像中与像素对应的像素的至少部分像素的相似度值; 基于相似度值建立权重系数,并对被摄体图像中的被摄体像素进行加权平均以获得经处理的像素值。 利用上述解决方案,可以在处理另一图像时使用较高质量图像的结构信息,从而提高其他图像的质量。
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公开(公告)号:US20140211917A1
公开(公告)日:2014-07-31
申请号:US14129655
申请日:2012-12-31
发明人: Zhiqiang Chen , Li Zhang , Ziran Zhao , Yuxiang Xing , Jia Hao , Liang Li
IPC分类号: G01V5/00
CPC分类号: G01V5/0016 , A61B6/032 , A61B6/4007 , A61B6/4014 , A61B6/4078 , A61B6/4233 , A61B6/4275 , G01N23/046 , G01T1/2985 , G01V5/005
摘要: The present invention discloses apparatus and method for ray scanning imaging. The apparatus comprises a plurality of ray generators and a ray detection device. The plurality of ray generators are arranged uniformly along a circular arc and emit ray beams in sequence or simultaneously to an object to be inspected within a single scanning period. The ray detection device may be either in a multi-segmental semi-closed configuration composed of a plurality of linear arrays of ray detectors or in a circular arc configuration where a plurality of ray detection units arranged uniformly along a circular arc. During the inspection, the apparatus is advantageous in obtaining the complete ray projection values without rotation thereof, so as to effectively shorten the inspection time.
摘要翻译: 本发明公开了一种用于射线扫描成像的装置和方法。 该装置包括多个射线发生器和射线检测装置。 多个射线发生器沿着圆弧均匀地布置,并且在单个扫描周期内依次发射射线束或同时发射到被检查物体。 射线检测装置可以是由多个线状阵列的射线检测器组成的多段半封闭构造,也可以是多个沿着圆弧均匀排列的射线检测单元的圆弧结构。 在检查期间,该装置有利于获得完整的射线投影值而不旋转,以便有效地缩短检查时间。
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公开(公告)号:US11925183B2
公开(公告)日:2024-03-12
申请号:US17661257
申请日:2022-04-28
发明人: Zhiqiang Chen , Li Zhang , Qingping Huang , Yong Zhou , Hui Ding , Chao Ji
IPC分类号: G01N23/046 , A22B5/00 , G01N23/083 , G01N23/18 , G01N33/12
CPC分类号: A22B5/007 , G01N23/046 , G01N23/083 , G01N23/18 , G01N33/12 , G01N2223/1016 , G01N2223/204 , G01N2223/30 , G01N2223/3307 , G01N2223/3308 , G01N2223/419 , G01N2223/5015 , G01N2223/618 , G01N2223/643
摘要: The present disclosure relates to a static CT detection device, including: a shielding body, formed with a detection channel through which an object under detection can pass; a ray source, emitting rays for detecting the object under detection when the object under detection passes through the detection channel; and a detector, for acquiring the rays emitted by the ray source and having passed through the detection channel, wherein the shielding body is formed with an opening portion, and the opening portion extends from an inlet of the detection channel to an outlet of the detection channel.
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公开(公告)号:US10935691B2
公开(公告)日:2021-03-02
申请号:US16234625
申请日:2018-12-28
发明人: 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分类号: G01V5/00 , G01N23/046
摘要: 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.
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公开(公告)号:US10769821B2
公开(公告)日:2020-09-08
申请号:US16045383
申请日:2018-07-25
发明人: Yuxiang Xing , Li Zhang , Jianmin Li , Zhiqiang Chen , Jianping Gu
摘要: A method and device for reconstructing a CT image and a storage medium are disclosed. CT scanning is performed on an object to be inspected to obtain projection data on a first scale. Projection data on a plurality of other scales is generated from the projection data on the first scale. Projection data on each scale is processed on the corresponding scale by using a first convolutional neural network to obtain processed projection data, and a back-projection operation is performed on the processed projection data to obtain a CT image on the corresponding scale. CT images on the plurality of scales are fused to obtain a reconstructed image of the object to be inspected.
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公开(公告)号:US20190192090A1
公开(公告)日:2019-06-27
申请号:US16232072
申请日:2018-12-26
发明人: Liang Li , Zhiqiang Chen , Kejun Kang , Ziran Zhao , Li Zhang , Yuxiang Xing , Tiao Zhao , Jianmin Li , Bicheng Liu , Qian Yi
摘要: 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.
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公开(公告)号:US10295481B2
公开(公告)日:2019-05-21
申请号:US15262894
申请日:2016-09-12
发明人: Zhiqiang Chen , Li Zhang , Tianyi Yang Dai , Ji Zhao , Xin Jin , Ming Chang
IPC分类号: G01N23/20 , G01N23/00 , G01N23/046 , G01N23/083 , G01N23/207 , G21K1/02 , G01V5/00
摘要: The present disclosure relates to detection systems and methods. One illustrative detection system may include a distributed radiation source having a plurality of radiation source focus points, which irradiate an object under detection, wherein the plurality of radiation source focus points are divided into a certain number of groups, and a primary collimator that limits rays of each of the radiation source focus points such that the rays emit into an XRD detection device. An XRD detection device may include a plurality of XRD detectors that are divided into the same number of groups as the radiation source focus points, wherein XRD detectors in a same group are arranged to be separated by XRD detectors in other groups, and rays of each of the radiation source focus points are received by XRD detectors having the same group number as the group number of the radiation source focus point.
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公开(公告)号:US10267752B2
公开(公告)日:2019-04-23
申请号:US15328437
申请日:2015-11-02
发明人: Li Zhang , Zhiqiang Chen , Xiaolei Jiang , Xiaohua Zhu , Xin Jin
IPC分类号: G01N23/04 , G01N23/046
摘要: The present disclosure relates to X-ray imaging systems and methods. An exemplary system may comprise a distributed X-ray source arrangement, a fixed grating module, an X-ray detecting device, and a computer workstation. In one illustrative implementation, X-ray sources of the distributed incoherent X-ray source arrangement may sequentially generate and emit X-rays to an object to be detected. Further, for each exposure, the X-ray detecting device may receive the X-rays, wherein after a series of stepping exposures and corresponding data acquisitions, at each pixel of the X-ray detecting device, X-ray intensities are represented as an intensity curve; the intensity curve may be compared to an intensity curve in the absence of the object to be detected, and a pixel value at each pixel may be obtained from a variation of the intensity curves; and image information of the object to be detected may be obtained according to such pixel values.
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