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CN 34-1054/N

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Open AccessOpen Access JUSTC Original Paper

Perception-aware multi-view rendering optimization for indoor scenes

  • School of Mathematical Sciences,University of Science and Technology of China,Hefei 230026, China

Cite this:
https://doi.org/10.3969/j.issn.0253-2778.2018.02.008
  • Received Date: 08 December 2016
  • Rev Recd Date: 06 April 2017
  • Publish Date: 28 February 2018
    Abstract

  • Abstract

    Multi-view rendering optimization for indoor scenes in the process of interior design was studied. Given an indoor scene model,firstly,a novel and perception-aware viewpoint metric function that is based on geometry information,structure information and aesthetic information was defined. Secondly,a multi-view objective function was modelled and optimized to obtain a multi-view set by using the simulated annealing algorithm. Extensive experiments show that the proposed method can adaptively obtain a set of all-sided and artistic rendering images for multi-view rendering optimization.

    Abstract

    Multi-view rendering optimization for indoor scenes in the process of interior design was studied. Given an indoor scene model,firstly,a novel and perception-aware viewpoint metric function that is based on geometry information,structure information and aesthetic information was defined. Secondly,a multi-view objective function was modelled and optimized to obtain a multi-view set by using the simulated annealing algorithm. Extensive experiments show that the proposed method can adaptively obtain a set of all-sided and artistic rendering images for multi-view rendering optimization.
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    • References(28)
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    MORTARA M, SPAGNUOLO M. Semantics-driven best view of 3D shapes[J]. Computers & Graphics, 2009, 33(3): 280-290.
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    GOOCH B, REINHARD E, MOULDING C, et al. Artistic composition for image creation[M]// Rendering Techniques 2001. Vienna: Springer, 2001: 83-88.
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    LIU H, ZHANG L, HUANG H. Web-image driven best views of 3D shapes[J]. The Visual Computer, 2012, 28(3): 279-287.
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    SOKOLOV D, PLEMENOS D, TAMINE K. Viewpoint quality and global scene exploration strategies[C]// GRAPP 2006. Trier, Germany: dblp, 2006: 184-191.
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    BRATKOVA M, THOMPSON W B, SHIRLEY P. Automatic views of natural scenes[C]// Proceedings of the 5th Eurographics Conference on Computational Aesthetics in Graphics, Visualization and Imaging. Switzerland: Eurographics Association Aire-la-Ville, 2009: 33-40.
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    ZHANG L, LIU H, HUANG H. What’re in a scene? Towards the computational best view of 3D scene[J]. Advanced Science Letters, 2012, 10(1): 465-471.
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    LIU T, MCCANN J, LI W, et al. Composition-aware scene optimization for product images[J]. Computer Graphics Forum (Proc Eurographics 2015), 2015, 34(2): 13-24.
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    LOW K L, LASTRA A. An adaptive hierarchical next-best-view algorithm for 3D reconstruction of indoor scenes[C]// Proceedings of 14th Pacific Conference on Computer Graphics and Applications, Taipei, China. 2006: 1-8.
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    WU S, SUN W, LONG P, et al. Quality-driven poisson-guided autoscanning[J]. ACM Transactions on Graphics (TOG), 2014, 33(6): No.203.
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    URRUTIA J. Art gallery and illumination problems[J]. Handbook of Computational Geometry, 2000, 1(1): 973-1027.
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    [22]
    AMRIKI K A, ATREY P K. Bus surveillance: how many and where cameras should be placed[J]. Multimedia tools and Applications, 2014, 71(3): 1051-1085.
    [23]
    FISHER M, SAVVA M, HANRAHAN P. Characterizing structural relationships in scenes using graph kernels[J]. ACM Transactions on Graphics, 2011, 30(4): No.34.
    [24]
    LIU L, CHEN R, WOLF L, et al. Optimizing photo composition[J]. Computer Graphics Forum, 2010, 29(2): 469-478.
    [25]
    HWANG C R. Simulated annealing: Theory and applications[J]. Acta Applicandae Mathematicae, 1988, 12(1): 108-111.
    [26]
    FISHER M, RITCHIE D, SAVVA M, et al. Example-based synthesis of 3D object arrangements[J]. ACM Transactions on Graphics, 2012, 31(6): 135.
    [27]
    Google. 3D Warehouse [DB/OL]. [2016-12-01] https://3dwarehouse.sketchup.com/.
    [28]
    酷家乐.优秀设计[EB/OL]. [2016-12-01] http://www.kujiale.com/design.
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    [1]
    PLEMENOS D, BENAYADA M. Intelligent display in scene modeling new techniques to automatically compute good views[C]// International Conference GraphiCon 1996. 1996, 96: 1-5.
    [2]
    VZQUEZ P P, FEIXAS M, SBERT M, et al. Viewpoint selection using viewpoint entropy[C]// VMV 2001, Stuttgart, Germany. 2001, 1: 273-280.
    [3]
    VIEIRA T, BORDIGNON A, PEIXOTO A, et al. Learning good views through intelligent galleries[J]. Computer Graphics Forum, 2009, 28(2): 717-726.
    [4]
    PAGE D L, KOSCHAN A F, SUKUMAR S R, et al. Shape analysis algorithm based on information theory[C]// Proceedings 2003 International Conference on Image Processing. IEEE, 2003: I-229-I-232.
    [5]
    PODOLAK J, SHILANE P, GOLOVINSKIY A, et al. A planar-reflective symmetry transform for 3D shapes[J]. ACM Transactions on Graphics (TOG), 2006, 25(3): 549-559.
    [6]
    LEE C H, VARSHNEY A, JACOBS D W. Mesh saliency[J]. ACM Transactions on Graphics (TOG), 2005, 24(3): 659-666.
    [7]
    LEIFMAN G, SHTROM E, TAL A. Surface regions of interest for viewpoint selection[C]// Proceedings of the 25th IEEE Conference on Computer Vision and Pattern Recognition. IEEE, 2012: 414-421.
    [8]
    MORTARA M, SPAGNUOLO M. Semantics-driven best view of 3D shapes[J]. Computers & Graphics, 2009, 33(3): 280-290.
    [9]
    GOOCH B, REINHARD E, MOULDING C, et al. Artistic composition for image creation[M]// Rendering Techniques 2001. Vienna: Springer, 2001: 83-88.
    [10]
    LIU H, ZHANG L, HUANG H. Web-image driven best views of 3D shapes[J]. The Visual Computer, 2012, 28(3): 279-287.
    [11]
    SECORD A, LU J, FINKELSTEIN A, et al. Perceptual models of viewpoint preference[J]. ACM Transactions on Graphics (TOG), 2011, 30(5): No. 109.
    [12]
    SOKOLOV D, PLEMENOS D, TAMINE K. Viewpoint quality and global scene exploration strategies[C]// GRAPP 2006. Trier, Germany: dblp, 2006: 184-191.
    [13]
    BRATKOVA M, THOMPSON W B, SHIRLEY P. Automatic views of natural scenes[C]// Proceedings of the 5th Eurographics Conference on Computational Aesthetics in Graphics, Visualization and Imaging. Switzerland: Eurographics Association Aire-la-Ville, 2009: 33-40.
    [14]
    ZHANG L, LIU H, HUANG H. What’re in a scene? Towards the computational best view of 3D scene[J]. Advanced Science Letters, 2012, 10(1): 465-471.
    [15]
    LIU T, MCCANN J, LI W, et al. Composition-aware scene optimization for product images[J]. Computer Graphics Forum (Proc Eurographics 2015), 2015, 34(2): 13-24.
    [16]
    LOW K L, LASTRA A. An adaptive hierarchical next-best-view algorithm for 3D reconstruction of indoor scenes[C]// Proceedings of 14th Pacific Conference on Computer Graphics and Applications, Taipei, China. 2006: 1-8.
    [17]
    WU S, SUN W, LONG P, et al. Quality-driven poisson-guided autoscanning[J]. ACM Transactions on Graphics (TOG), 2014, 33(6): No.203.
    [18]
    DEBAQUE B, JEDIDI R, PREVOST D. Optimal video camera network deployment to support security monitoring[C]// Proceedings of 12th International Conference on Information Fusion. IEEE, 2009: 1730-1736.
    [19]
    URRUTIA J. Art gallery and illumination problems[J]. Handbook of Computational Geometry, 2000, 1(1): 973-1027.
    [20]
    GONZALEZ-BARBOSA J J, GARCA-RAMREZ T, SALAS J, et al. Optimal camera placement for total coverage[C]// Proceedings of the 2009 IEEE international conference on Robotics and Automation. IEEE, 2009: 844-848.
    [21]
    BECKER E, GUERRA-FILHO G, MAKEDON F. Automatic sensor placement in a 3D volume[C]// Proceedings of the 2nd International Conference on PErvasive Technologies Related to Assistive Environments. New York: ACM, 2009: 36.
    [22]
    AMRIKI K A, ATREY P K. Bus surveillance: how many and where cameras should be placed[J]. Multimedia tools and Applications, 2014, 71(3): 1051-1085.
    [23]
    FISHER M, SAVVA M, HANRAHAN P. Characterizing structural relationships in scenes using graph kernels[J]. ACM Transactions on Graphics, 2011, 30(4): No.34.
    [24]
    LIU L, CHEN R, WOLF L, et al. Optimizing photo composition[J]. Computer Graphics Forum, 2010, 29(2): 469-478.
    [25]
    HWANG C R. Simulated annealing: Theory and applications[J]. Acta Applicandae Mathematicae, 1988, 12(1): 108-111.
    [26]
    FISHER M, RITCHIE D, SAVVA M, et al. Example-based synthesis of 3D object arrangements[J]. ACM Transactions on Graphics, 2012, 31(6): 135.
    [27]
    Google. 3D Warehouse [DB/OL]. [2016-12-01] https://3dwarehouse.sketchup.com/.
    [28]
    酷家乐.优秀设计[EB/OL]. [2016-12-01] http://www.kujiale.com/design.
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