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Vivo human retinal capillary image mosaic on cell-level high-resolution
Yuran, Liu1; Yudong, Zhang2; Yun, Dai2; Yuran, L. (cnlyr@sina.com.cn)
Source PublicationInternational Journal of Digital Content Technology and its Applications
Volume6Issue:14Pages:428-436
2012
Language英语
ISSN19759339
DOI10.4156/jdcta.vol6.issue14.51
Indexed ByEi
Subtype期刊论文
AbstractAdaptive optics technology can get cell-level high-resolution image for capturing human retinal capillary. Nevertheless, because of its narrow field of vision, the six degree vision field of human capillary can be only got by 169 overlapping images. While stitching the images by hand can only get low quality image with low efficiency, and then it is needed to investigate automatic image stitching technique. For the adaptive optics image stitching problem which has characteristics of inconsistent intensity, inconsistent resolution, and difference on some details, we propose to match on the base of corner detection, and compute the projection matrix parameters according to the matched corners, and then mosaic the matrix utilizing the projection matrix, then finally get the whole cell-level high resolution human retinal capillary image through image fusion.; Adaptive optics technology can get cell-level high-resolution image for capturing human retinal capillary. Nevertheless, because of its narrow field of vision, the six degree vision field of human capillary can be only got by 169 overlapping images. While stitching the images by hand can only get low quality image with low efficiency, and then it is needed to investigate automatic image stitching technique. For the adaptive optics image stitching problem which has characteristics of inconsistent intensity, inconsistent resolution, and difference on some details, we propose to match on the base of corner detection, and compute the projection matrix parameters according to the matched corners, and then mosaic the matrix utilizing the projection matrix, then finally get the whole cell-level high resolution human retinal capillary image through image fusion.
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Document Type期刊论文
Identifierhttp://ir.ioe.ac.cn/handle/181551/6320
Collection自适应光学技术研究室(八室)
Corresponding AuthorYuran, L. (cnlyr@sina.com.cn)
Affiliation1. Huaihai Institute of Technology, Liangyungang, Jiangsu, China
2. Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu, Sichuan, China
Recommended Citation
GB/T 7714
Yuran, Liu,Yudong, Zhang,Yun, Dai,et al. Vivo human retinal capillary image mosaic on cell-level high-resolution[J]. International Journal of Digital Content Technology and its Applications,2012,6(14):428-436.
APA Yuran, Liu,Yudong, Zhang,Yun, Dai,&Yuran, L. .(2012).Vivo human retinal capillary image mosaic on cell-level high-resolution.International Journal of Digital Content Technology and its Applications,6(14),428-436.
MLA Yuran, Liu,et al."Vivo human retinal capillary image mosaic on cell-level high-resolution".International Journal of Digital Content Technology and its Applications 6.14(2012):428-436.
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