Model-Driven 3D Content Creation as Variation

NUDT TAU ZJU SFU Model-Driven 3D Content Creation as Variation Hao (Richard) Zhang – 张皓 GrUVi Lab, Simon Fraser University (SFU) Talk @ HKUST, 04/21/11

3D content creation Inspiration? Inspiration  a readily usable digital 3D model

Realistic reconstruction Inspiration = real-world data [Nan et al., SIGGRAPH 2010]

Creative inspiration Creation of novel 3D shapes Inspiration = design concept, mental picture, … High demand in VFX, games, simulation, VR, … sketch

3D content creation is hard 2D-to-3D: an ill-posed problem Shape from shading, sketch-based modeling, … Creation from scratch is hard: job for skilled artists One of the most central problems in graphics; One of the most discussed at SIG’10 panel

Usable 3D content even harder Models created are meant for subsequent use Creation of readily usable 3D models

Usable 3D content even harder Models created are meant for subsequent use Creation of readily usable 3D models Higher-level information beyond low-level mesh Part or segmentation information Structural relations between parts Correspondence to relevant models, etc. Hard shape analysis problems!

Key: model reuse Reuse existing 3D models and associated info Model-driven approach: creation is driven by or based on existing (pre-analyzed) models

Key: model reuse Reuse existing 3D models and associated info Model-driven approach: creation is driven by or based on existing (pre-analyzed) models Two primary modes of reuse: New creation via part composition

Key: model reuse Reuse existing 3D models and associated info Model-driven approach: creation is driven by or based on existing (pre-analyzed) models Two primary modes of reuse: New creation via part composition New creation as variationor modification of existing model(s), e.g.,a warp or a deformation

Modeling by example New models composed by parts retrieved from an existing data repository Key: retrieve relevant parts Many variants … [Funkhouser et al., SIGGRAPH 2004]

Pros and cons Pros: Significant deviation from existing models Exploratory modeling via part suggestions [Chaudhuri & Koltun., SIG Asia 2010]

Pros and cons Pros: Significant deviation from existing models Exploratory modeling with part suggestions Cons: Are models composed by parts readily usable?

Pros and cons Pros: Significant deviation from existing models Exploratory modeling with part suggestions Cons: Are models composed by parts readily usable?  structure lost by part composition; how to stitch?

Pros and cons Pros: Significant deviation from existing models Exploratory modeling with part suggestions Cons: Are models composed by parts readily usable?  structure lost by part composition; how to stitch? Does part exploration always reflect user design intent?

Model-driven creation as variation New creation as variationof existing model(s) Inspiration = a model set Inspiration = photographs Photo-inspired 3D model creation Enrich a set; generate “more of the same” …

Model-driven creation as variation New creation as variationof existing model(s) Enrich a set; generate “more of the same” … Inspiration = a model set

Style-Content Separation by Anisotropic Part Scales Kai Xu1,2, Honghua Li2, Hao Zhang2, Daniel Cohen-Or3 Yueshan Xiong2, and Zhi-Quan Cheng2 1Simon Fraser Universtiy 2National Univ. of Defense Tech. 3Tel-Aviv University

Motivation Enrich a set of 3D models with their derivatives Set belongs to the same family or class

Variations in shape parts in the set Geometric or content difference Part proportion (= style) difference

Style transfer as a derivative ? Part proportion style

Style transfer as a derivative Part proportion style ?

Difficulty with style transfer Style transfer needs part correspondence Part correspondence is difficult Unsupervised problem Both content and style variations Variations can be significant!

Work at part and OBB level Parts enclosed and characterized by tight oriented bounding boxes (OBBs)

Style content separation To address both shape variations in the set Separate treatment of “style” and “content” Content Style 1 Style Style 2 Style 3

Style transfer as a derivative Creation = filling in the style-content table

Style vs. content Fundamental to human perception

Style content separation Previous works on faces, motion, etc. Prerequisite: data correspondence Correspondence dealt with independently Correspondence itself is the very challenge!

Our approach • One particular style: • Anisotropic part scales or part proportions

Our approach • One particular style: • Anisotropic part scales or part proportions • The approach: • Style-content separation with style clustering inacorrespondence-free way

Algorithm overview Pipeline Style clustering Co-segmentation Inter-style part correspondence Content classification

Anisotropic part scales Measure style distance between two shapes

Anisotropic part scales Measure style distance between two shapes Part OBB graphs ofgiven segmentation

Anisotropic part scales Measure style distance between two shapes … … Part OBB graphs ofgiven segmentation Compute style signatures

Anisotropic part scales Measure style distance between two shapes … … Part OBB graphs ofgiven segmentation Compute style signatures Euclidean distance

Style distance issues Unknown segmentation Unknown correspondence ? ?

Style distance Search over all part compositions and part counts …… ……

Style distance For each part count, find minimal distance …… A good signature will return min distance across all part counts to reflect corresponding part decompositions … ……

Correspondence-free style signature UseLaplacian graph spectra: Binary relations: difference of part scales between adjacent OBBs OBB graph

Correspondence-free style signature Use Laplacian graph spectra: Unary attributes: anisotropy of parts Graph spectra is permutation-free spherical linear planar OBB graph

Style clustering Spectral clustering using style distances

Pipeline Style clustering Co-segmentation Inter-style part correspondence Content classification

Co-segmentation Approach: Consistent segmentation [Golovinskiy & Funkhouser, SMI 09] Initial guess: global alignment (ICP) [Golovinskiy & Funkhouser 09]

Co-segmentation Approach: Consistent segmentation [Golovinskiy & Funkhouser, SMI 09] Initial guess: global alignment (ICP) We co-segment within a style cluster Removing non-homogeneous part scaling from analysis [Golovinskiy & Funkhouser 09]

Co-segmentation Approach: Consistent segmentation [Golovinskiy & Funkhouser, SMI 09] Initial guess: global alignment (ICP) We co-segment within a style cluster Removing non-homogeneous part scaling from analysis [Golovinskiy & Funkhouser 09] After style separation

Inter-style part correspondence Approach: deform-to-fit Deformation-driven correspondence [Zhang et al., SGP 08] Consider common interactions between OBBs 1D-to-1D 2D-to-3D 1D-to-2D 2D-to-2D

Inter-style part correspondence Deform-to-fit: appropriate deformation energy Pruned priority-driven search

Content classification Use Light Field Descriptor [Chen et al. 2003] Compare corresponding parts Part-level LFD Global LFD

Model-Driven 3D Content Creation as Variation

Model-Driven 3D Content Creation as Variation

Presentation Transcript

Model Driven Development

Model Driven Architecture

Content creation process

MDD – Model Driven Development MDA – Model Driven Architecture

Model Driven Engineering

Energise Content Creation

Model Direct Variation

learn.genetics.utah/content/variation/misconceptions/

learn.genetics.utah/content/variation/misconceptions/

Content Creation

Stratal Slicing using 3D Model-driven Chronostratigraphy

Discussion of Model-Driven Development Model-Driven Architecture

Model-Driven 3D Content Creation as Variation

Content Creation Companies

Digital Content Creation - mevstudios.com

Digital Content Creation - mevstudios.com

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Basics Of Content Creation

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