Novel edge preserve and depth image recovery method in RGB-D camera systems

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Author listLasang P., Shen S.M., Kumwilaisak W.

PublisherIEEE Computer Society

Publication year2015

Volume number2015-February

Issue numberFebruary

Start page346

End page349

Number of pages4

ISSN2166-6814

eISSN2166-6814

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84937845826&doi=10.1109%2fICCE-Berlin.2014.7034303&partnerID=40&md5=28be0bc97bece2d6a3b1a65f17a58522

LanguagesEnglish-Great Britain (EN-GB)


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Abstract

We propose a new edge preserve and depth image recovery method in RGB-D camera systems that gives a sharp and accurate object shape from a noisy boundary depth map. The edges of an input depth image are detected and the noisy pixels around them are removed from the depth image. An anisotropic diffusion edge tensor of an input RGB image is computed. Missing depth pixels are then recovered using the total generalized variation optimization with guidance of the RGB-image edge tensor. Thus, accurate object depth boundary can be obtained and well aligned with the object edges in RGB images. The missing or invalid depth pixels in the large hole areas and the thin object can also be recovered. Experimental results show the improvement in edge preserve and depth image recovery with the expense on computation complexity when compared with previous works. ฉ 2014 IEEE.


Keywords

anisotropic diffusion tensordepth recoveryRGB-D cameratotal generalized variation


Last updated on 2023-02-10 at 07:35