Pairwise Registration by Local Orientation Cues

Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motio...

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Published inComputer graphics forum Vol. 35; no. 6; pp. 59 - 72
Main Authors Petrelli, Alioscia, Di Stefano, Luigi
Format Journal Article
LanguageEnglish
Published Oxford Blackwell Publishing Ltd 01.09.2016
Subjects
3-D graphics
3D local reference frame
3D shape matching
Analysis
Cameras
Computation
computer vision-3D shape registration
Criteria
Cues
Feature extraction
I.3.5 [Computer Graphics]: Computational Geometry and Object Modelling-Geometric algorithms
I.3.5 [Computer Graphics]: Computational Geometry and Object Modelling—Geometric algorithms, languages and systems
I.4.3 [Image Processing and Computer Vision]: Enhancement-Registration
I.4.6 [Image Processing and Computer Vision]: Segmentation-Edge and feature detection
Image processing systems
languages and systems
Lasers
Pipelines
Registration
Scanners
Studies
Three dimensional models
Online AccessGet full text
ISSN0167-7055
1467-8659
1467-8659
DOI10.1111/cgf.12732

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Abstract Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motion between two views, (ii) the intuition that feature points can be matched based solely on cues directly derived from the computation of the LRF, (iii) a feature detection approach relying on a saliency criterion which captures the ability to establish an LRF repeatably. Unlike related work in literature, we also propose a comprehensive experimental evaluation based on diverse kinds of data (such as those acquired by laser scanners, Kinect and stereo cameras) as well as on quantitative comparison with respect to other methods. We also address the issue of setting the many parameters that characterize coarse registration pipelines fairly and realistically. The experimental evaluation vouches that our method can handle effectively data acquired by different sensors and is remarkably fast. Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motion between two views, (ii) the intuition that feature points can be matched based solely on cues directly derived from the computation of the LRF, (iii) a feature detection approach relying on a saliency criterion which captures the ability to establish an LRF repeatably.
AbstractList Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motion between two views, (ii) the intuition that feature points can be matched based solely on cues directly derived from the computation of the LRF, (iii) a feature detection approach relying on a saliency criterion which captures the ability to establish an LRF repeatably. Unlike related work in literature, we also propose a comprehensive experimental evaluation based on diverse kinds of data (such as those acquired by laser scanners, Kinect and stereo cameras) as well as on quantitative comparison with respect to other methods. We also address the issue of setting the many parameters that characterize coarse registration pipelines fairly and realistically. The experimental evaluation vouches that our method can handle effectively data acquired by different sensors and is remarkably fast.
Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motion between two views, (ii) the intuition that feature points can be matched based solely on cues directly derived from the computation of the LRF, (iii) a feature detection approach relying on a saliency criterion which captures the ability to establish an LRF repeatably. Unlike related work in literature, we also propose a comprehensive experimental evaluation based on diverse kinds of data (such as those acquired by laser scanners, Kinect and stereo cameras) as well as on quantitative comparison with respect to other methods. We also address the issue of setting the many parameters that characterize coarse registration pipelines fairly and realistically. The experimental evaluation vouches that our method can handle effectively data acquired by different sensors and is remarkably fast. Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motion between two views, (ii) the intuition that feature points can be matched based solely on cues directly derived from the computation of the LRF, (iii) a feature detection approach relying on a saliency criterion which captures the ability to establish an LRF repeatably.
Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motion between two views, (ii) the intuition that feature points can be matched based solely on cues directly derived from the computation of the LRF, (iii) a feature detection approach relying on a saliency criterion which captures the ability to establish an LRF repeatably. Unlike related work in literature, we also propose a comprehensive experimental evaluation based on diverse kinds of data (such as those acquired by laser scanners, Kinect and stereo cameras) as well as on quantitative comparison with respect to other methods. We also address the issue of setting the many parameters that characterize coarse registration pipelines fairly and realistically. The experimental evaluation vouches that our method can handle effectively data acquired by different sensors and is remarkably fast. Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point clouds. Key to the method are: (i) the observation that any two corresponding points endowed with an LRF provide a hypothesis on the rigid motion between two views, (ii) the intuition that feature points can be matched based solely on cues directly derived from the computation of the LRF, (iii) a feature detection approach relying on a saliency criterion which captures the ability to establish an LRF repeatably.
Author Petrelli, Alioscia
Di Stefano, Luigi
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References_xml – reference: [Hor87]  Horn B. K. P.: Closed-form solution of absolute orientation using unit quaternions. Journal of the Optical Society of America A 4, 4 (1987), 629-642.
– reference: [CJ97]  Chua C. S., Jarvis R.: Point signatures: A new representation for 3D object recognition. International Journal of Computer Vision 25, 1 (1997), 63-85.
– reference: [STD13]  Salti S., Tombari F., DiStefano L.: A performance evaluation of 3D keypoint detectors. International Journal of Computer Vision 102 (2013), 198-220.
– reference: [BNSN12]  Bariya P., Novatnack J., Schwartz G., Nishino K.: 3D geometric scale variability in range images: Features and descriptors. International Journal of Computer Vision 99, 2 (2012), 232-255.
– reference: [TCL*13]  Tam G. K. L., Cheng Z.-Q., Lai Y.-K., Langbein F. C., Liu Y., Marshall D., Martin R. R., Sun X.-F., Rosin P. L.: Registration of 3D point clouds and meshes: A survey from rigid to nonrigid. IEEE Transactions on Visualization and Computer Graphics 19, 7 (2013), 1199-1217.
– reference: [YM92]  Y. C., Medioni G.: Object modelling by registration of multiple range images. Image and Vision Computing, 3 (1992), 2724-2729.
– reference: [JH99]  Johnson A. E., Hebert M.: Using spin images for efficient object recognition in cluttered 3D scenes. IEEE Transactions on Pattern Analysis and Machine Intelligence 21 (1999), 433-449.
– reference: [BM92]  Besl P. J., McKay N. D.: A method for registration of 3-D shapes. IEEE Transactions on Pattern Analysis and Machine Intelligence 14, 2 (1992), 239-256.
– reference: [DNRR05]  Davis J., Nehab D., Ramamoorthi R., Rusinkiewicz S.: Spacetime stereo: A unifying framework for depth from triangulation. IEEE Transactions on Pattern Analysis and Machine Intelligence 27, 2 (2005), 296-302.
– reference: [SMFF07]  Salvi J., Matabosch C., Fofi D., Forest J.: A review of recent range image registration methods with accuracy evaluation. Image and Vision Computing 25 (2007), 578-596.
– reference: [Mas09]  Masuda T.: Log-polar height maps for multiple range image registration. Computer Vision and Image Understanding 113, 11 (2009), 1158-1169.
– reference: [CCFM08]  Castellani U., Cristani M., Fantoni S., Murino V.: Sparse points matching by combining 3D mesh saliency with statistical descriptors. Computer Graphics Forum (2008), 643-652.
– reference: [BSL12]  Bonarrigo F., Signoroni A., Leonardi R.: Multi-view alignment with database of features for an improved usage of high-end 3D scanners. EURASIP Journal on Advances in Signal Processing 1 (2012), 1-24.
– reference: [ZBH12]  Zaharescu A., Boyer E., Horaud R.: Keypoints and local descriptors of scalar functions on 2D manifolds. International Journal of Computer Vision 100, 1 (2012), 78-98.
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Snippet Inspired by recent work on robust and fast computation of 3D Local Reference Frames (LRFs), we propose a novel pipeline for coarse registration of 3D point...
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StartPage 59
SubjectTerms 3-D graphics
3D local reference frame
3D shape matching
Analysis
Cameras
Computation
computer vision-3D shape registration
Criteria
Cues
Feature extraction
I.3.5 [Computer Graphics]: Computational Geometry and Object Modelling-Geometric algorithms
I.3.5 [Computer Graphics]: Computational Geometry and Object Modelling—Geometric algorithms, languages and systems
I.4.3 [Image Processing and Computer Vision]: Enhancement-Registration
I.4.6 [Image Processing and Computer Vision]: Segmentation-Edge and feature detection
Image processing systems
languages and systems
Lasers
Pipelines
Registration
Scanners
Studies
Three dimensional models
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Title Pairwise Registration by Local Orientation Cues
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