Improved feature detection in fused intensity-range images with complex SIFT (CSIFT)

Patrick Erik Bradley; Boris Jutzi

doi:10.3390/rs3092076

Improved feature detection in fused intensity-range images with complex SIFT (CSIFT)

Patrick Erik Bradley, Boris Jutzi

Humanoid Technologies Lab (H2T)

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

8 Zitate (Scopus)

Abstract

The real and imaginary parts are proposed as an alternative to the usual Polar representation of complex-valued images. It is proven that the transformation from Polar to Cartesian representation contributes to decreased mutual information, and hence to greater distinctiveness. The Complex Scale-Invariant Feature Transform (CSIFT) detects distinctive features in complex-valued images. An evaluation method for estimating the uniformity of feature distributions in complex-valued images derived from intensity-range images is proposed. In order to experimentally evaluate the proposed methodology on intensity-range images, three different kinds of active sensing systems were used: Range Imaging, Laser Scanning, and Structured Light Projection devices (PMD CamCube 2.0, Z+F IMAGER 5003, Microsoft Kinect).

Originalsprache	Englisch
Seiten (von - bis)	2076-2088
Seitenumfang	13
Fachzeitschrift	Remote Sensing
Jahrgang	3
Ausgabenummer	9
DOIs	https://doi.org/10.3390/rs3092076
Publikationsstatus	Veröffentlicht - Sept. 2011
Extern publiziert	Ja

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title = "Improved feature detection in fused intensity-range images with complex SIFT (CSIFT)",

abstract = "The real and imaginary parts are proposed as an alternative to the usual Polar representation of complex-valued images. It is proven that the transformation from Polar to Cartesian representation contributes to decreased mutual information, and hence to greater distinctiveness. The Complex Scale-Invariant Feature Transform (CSIFT) detects distinctive features in complex-valued images. An evaluation method for estimating the uniformity of feature distributions in complex-valued images derived from intensity-range images is proposed. In order to experimentally evaluate the proposed methodology on intensity-range images, three different kinds of active sensing systems were used: Range Imaging, Laser Scanning, and Structured Light Projection devices (PMD CamCube 2.0, Z+F IMAGER 5003, Microsoft Kinect).",

keywords = "Active sensor, Complex-valued image, Image-based registration, Laser scanning, Mutual information, Range imaging, Sift, Structured light projection",

author = "Bradley, {Patrick Erik} and Boris Jutzi",

year = "2011",

month = sep,

doi = "10.3390/rs3092076",

language = "English",

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AU - Jutzi, Boris

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AB - The real and imaginary parts are proposed as an alternative to the usual Polar representation of complex-valued images. It is proven that the transformation from Polar to Cartesian representation contributes to decreased mutual information, and hence to greater distinctiveness. The Complex Scale-Invariant Feature Transform (CSIFT) detects distinctive features in complex-valued images. An evaluation method for estimating the uniformity of feature distributions in complex-valued images derived from intensity-range images is proposed. In order to experimentally evaluate the proposed methodology on intensity-range images, three different kinds of active sensing systems were used: Range Imaging, Laser Scanning, and Structured Light Projection devices (PMD CamCube 2.0, Z+F IMAGER 5003, Microsoft Kinect).

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KW - Complex-valued image

KW - Image-based registration

KW - Laser scanning

KW - Mutual information

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KW - Sift

KW - Structured light projection

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Improved feature detection in fused intensity-range images with complex SIFT (CSIFT)

Abstract

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