WO2023123301 - IMAGING SYSTEMS WITH ROTATING IMAGE SENSORS
National phase entry:
Publication Number
WO/2023/123301
Publication Date
06.07.2023
International Application No.
PCT/CN2021/143484
International Filing Date
31.12.2021
Title **
[English]
IMAGING SYSTEMS WITH ROTATING IMAGE SENSORS
[French]
SYSTÈMES D'IMAGERIE AVEC CAPTEURS D'IMAGE ROTATIFS
Applicants **
SHENZHEN XPECTVISION TECHNOLOGY CO., LTD.
B507, Block A and B, Nanshan Medical Device Industrial Park, Nanhai Avenue 1019, Nanshan District
Shenzhen, Guangdong 518000, CN
Inventors
CAO, Peiyan
B507, Block A and B, Nanshan Medical Device Industrial Park, Nanhai Avenue 1019, Nanshan District
Shenzhen, Guangdong 518000, CN
Application details
| Total Number of Claims/PCT | * |
| Number of Independent Claims | * |
| Number of Priorities | * |
| Number of Multi-Dependent Claims | * |
| Number of Drawings | * |
| Pages for Publication | * |
| Number of Pages with Drawings | * |
| Pages of Specification | * |
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International Searching Authority |
CNIPA
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| Applicant's Legal Status |
Legal Entity
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| * | |
| * | |
| * | |
| * | |
| Entry into National Phase under |
Chapter I
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| Translation |
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Quotation for National Phase entry
| Country | Stages | Total | |
|---|---|---|---|
| China | Filing | 1163 | |
| EPO | Filing, Examination | 7996 | |
| Japan | Filing | 590 | |
| South Korea | Filing | 482 | |
| USA | Filing, Examination | 2710 |
Total: 12941 USD
The term for entry into the National Phase has expired. This quotation is for informational purposes only
Abstract[English]
An imaging method that includes imaging an object (720) with a radiation beam (712) from a radiation source (710) and an image sensor (600). During imaging, the object (720) may be closer to the radiation source (710) than to the image sensor (600). After imaging, the object (720) is moved relative to the combination of the image sensor (600) and the radiation source (710), such that the object (720) is farther from the radiation source (710) than during imaging. The combination of the radiation source (710) and the image sensor (600) is then rotated relative to the object (720). The object (720) is then moved relative to the combination of the image sensor (600) and the radiation source (710), such that the object (720) is closer to the radiation source (710) than during the rotation. Then the object (720) is imaged again.[French]
L'invention concerne un procédé d'imagerie qui comprend l'imagerie d'un objet (720) avec un faisceau de rayonnement (712) à partir d'une source de rayonnement (710) et d'un capteur d'image (600). Pendant l'imagerie, l'objet (720) peut être plus proche de la source de rayonnement (710) que du capteur d'image (600). Après l'imagerie, l'objet (720) est déplacé par rapport à la combinaison du capteur d'image (600) et de la source de rayonnement (710), de telle sorte que l'objet (720) soit plus éloigné de la source de rayonnement (710) que pendant l'imagerie. La combinaison de la source de rayonnement (710) et du capteur d'image (600) est ensuite tournée par rapport à l'objet (720). L'objet (720) est ensuite déplacé par rapport à la combinaison du capteur d'image (600) et de la source de rayonnement (710), de telle sorte que l'objet (720) soit plus proche de la source de rayonnement (710) que pendant la rotation. Puis l'objet (720) est à nouveau imagé.