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Specificity-based multimodal three-dimensional optical tomography system and method

A three-dimensional optical and tomographic imaging technology, which is applied in computerized tomography scanners, instruments for radiological diagnosis, diagnosis using tomographic scanning, etc., can solve the problems that restrict the application of optical three-dimensional tomographic imaging technology, limited information, and inverse problems are not uniquely determined to avoid the dependence of prior knowledge, improve robustness, and reduce dependence

Active Publication Date: 2014-10-08
INST OF AUTOMATION CHINESE ACAD OF SCI
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Problems solved by technology

[0003] 3D optical tomography is an ill-conditioned inverse problem, because in the imaging process, the information that can be measured to locate the reconstruction target is very limited, so the inverse problem usually has no unique definite solution
These limitations have severely restricted the application of optical three-dimensional tomography

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  • Specificity-based multimodal three-dimensional optical tomography system and method
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  • Specificity-based multimodal three-dimensional optical tomography system and method

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Embodiment Construction

[0029] The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.

[0030] In order to solve the ill-conditioned problem in reconstruction, the present invention adopts an optical three-dimensional tomographic imaging method based on multi-modal fusion technology. The present invention mainly includes two modes of optical imaging and X-ray tomography (CT). On the one hand, optical imaging has the advantage of high contrast, but at the same time it has poor spatial resolution; on the other hand, X-ray tomography (CT) technology has high spatial resolution, but poor contrast. Therefore, combining the two modalities can complement advantages, effectively improve imaging quality, and provide more comprehensive physiological information. Specifically, the combination of CT imaging technology and optical imaging technology introduces more independent information for image reconstruction of optical three-dimensional tomogra...

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Abstract

Disclosed are a specificity-based multi-modal three-dimensional optical tomography system and a method thereof. The specificity-based multimodal three-dimensional optical tomography system includes an optical imaging submodule, a CT imaging submodule, a translation platform (102), a turntable (103), an electronic control system (106), a rotation control and a processing software platform ( 107). The electronic control system (106) is used to control the translation stage (102) and the turntable (103), and the rotation control and processing software platform (107) is used to establish the obtained optical signal intensity distribution of the target surface, the obtained CT discrete An equation of a linear relationship between the grid data and the distribution of an unknown internal self-illuminating light source, an objective function of dynamic sparse regularization in each iteration step is established for the equation, and a tomographic image is reconstructed. In addition, the specificity-based multi-modal three-dimensional optical tomography method includes the following steps: performing optical imaging to obtain the optical signal intensity of the imaging target body surface; performing CT imaging to obtain structural body data; establishing the obtained optical signal intensity of the target surface. An equation for the linear relationship between signal intensity distribution, acquired CT discrete grid data, and distribution of an unknown internal self-illuminating light source; establishing an objective function of dynamic sparse regularization in each iteration for the equation; and reconstructing a tomographic image. The tomographic imaging system and method of the present invention can realize the overall three-dimensional tomographic imaging of the object to be imaged, avoid the dependence on the prior knowledge of the general distribution position, improve the robustness of image reconstruction, and reduce the dependence on the selection of regularization parameters sex.

Description

technical field [0001] The invention relates to an imaging system, in particular to a specificity-based multi-mode three-dimensional optical tomography system and method. Background technique [0002] Among the many modalities of molecular imaging, optical molecular imaging is a new technology that has developed rapidly in recent years. Optical molecular imaging technology can perform continuous in vivo imaging of the whole organism in real time and non-invasively, and visualize the change information of the organism's physiology, metabolism, and cell molecular level through three-dimensional tomographic imaging methods, which has promoted the application of related biomedical research. develop. [0003] 3D optical tomography is an ill-conditioned inverse problem, because in the imaging process, the information that can be measured to locate the reconstruction target is very limited, so the inverse problem usually has no unique definite solution. In order to obtain reasona...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N23/04A61B6/03
CPCA61B5/0073A61B6/5247A61B6/0407G06T11/006G06T2211/424A61B5/0035A61B6/032G06T2211/464
Inventor 田捷杨鑫刘凯韩冬秦承虎
Owner INST OF AUTOMATION CHINESE ACAD OF SCI
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