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Learning 3D mesh segmentation and labeling Evangelos Kalogerakis, Aaron Hertzmann, Karan Singh University of Toronto Head Tors o Upper arm Lower arm Hand.

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Presentation on theme: "Learning 3D mesh segmentation and labeling Evangelos Kalogerakis, Aaron Hertzmann, Karan Singh University of Toronto Head Tors o Upper arm Lower arm Hand."— Presentation transcript:

1 Learning 3D mesh segmentation and labeling Evangelos Kalogerakis, Aaron Hertzmann, Karan Singh University of Toronto Head Tors o Upper arm Lower arm Hand Upper leg Lower leg Foot

2 Goal: mesh segmentation and labeling Input Mesh Labeled Mesh Training Meshes Head Neck Torso Leg Tail Ear

3 Related work: mesh segmentation [Mangan and Whitaker 1999, Shlafman et al. 2002, Katz and Tal 2003, Liu and Zhang 2004, Katz et al. 2005, Simari et al. 2006, Attene et al. 2006, Lin et al. 2007, Kraevoy et al. 2007, Pekelny and Gotsman 2008, Golovinskiy and Funkhouser 2008, Li et al. 2008, Lai et al. 2008, Lavoue and Wolf 2008, Huang et al. 2009, Shapira et al. 2010] Surveys: [Attene et al. 2006, Shamir 2008, Chen et al. 2009]

4 Related work: mesh segmentation Shape Diameter [Shapira et al. 10] Randomized Cuts [Golovinskiy and Funkhouser 08] Random Walks [Lai et al. 08] Normalized Cuts [Golovinskiy and Funkhouser 08]

5 Is human-level segmentation even possible without higher-level cues? [X. Chen et al. SIGGRAPH 09]

6 Is human-level segmentation even possible without higher-level cues? [X. Chen et al. SIGGRAPH 09]

7 Image segmentation and labeling [Konishi and Yuille 00, Duygulu et al. 02, He et al. 04, Kumar and Hebert 03, Anguelov et al. 05, Tu et al.05, Schnitman et al. 06, Lim and Suter 07, Munoz et al. 08,…] Textonboost [Shotton et al. ECCV 06]

8 Related work: mesh segmentation & labeling Multi-objective segmentation and labeling [Simari et al. 09] Consistent segmentation of 3D meshes [Golovinskiy and Funkhouser 09]

9 Learn from examples Significantly better results than state-of-the-art No manual parameter tuning Can learn different styles of segmentation Several applications of part labeling Learning mesh segmentation and labeling

10 Labeling problem statement C = { head, neck, torso, leg, tail, ear } c1c1 Head Neck Torso Leg Tail Ear c2c2 c4c4 c3c3

11 Conditional Random Field for Labeling Unary term Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

12 Conditional Random Field for Labeling Face features Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

13 Conditional Random Field for Labeling Face Area Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

14 Conditional Random Field for Labeling Pairwise Term Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

15 Conditional Random Field for Labeling Edge Features Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

16 Conditional Random Field for Labeling Edge Length Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

17 Conditional Random Field for Labeling Unary term Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

18 Feature vector x surface curvature singular values from PCA shape diameter distances from medial surface average geodesic distances shape contexts spin images contextual label features

19 Learning a classifier x2x2 x1x1 Head Neck Torso Leg Tail Ear

20 Learning a classifier x2x2 x1x1 Head Neck Torso Leg Tail Ear ? We use the Jointboost classifier [Torralba et al. 2007]

21 Unary term

22 Unary Term Most-likely labels Classifier entropy

23 Our approach Pairwise Term Input Mesh Labeled Mesh Head Neck Torso Leg Tail Ear

24 Pairwise Term Geometry-dependent term

25 Pairwise Term Label compatibility term Hea d NeckEarTors o LegTail Hea d Neck Ear Tors o Leg Tail

26 Full CRF result Head Neck Torso Leg Tail Ear Unary term classifier Full CRF result

27 Learning Learn unary classifier and G(y) with Joint Boosting [Torralba et al. 2007] Hold-out validation for the rest of parameters

28 Dataset used in experiments We label 380 meshes from the Princeton Segmentation Benchmark Each of the 19 categories is treated separately [Chen et al. 2009] Antenn a Head Thora x Leg Abdome n

29 Quantitative Evaluation Labeling 6% error by surface area No previous automatic method Segmentation Our result: 9.5% Rand Index error State-of-the art: 16% [Golovinskiy and Funkhouser 08] With 6 training meshes: 12% With 3 training meshes: 15%

30 Labeling results

31 Segmentation Comparisons Shape Diameter [Shapira et al. 10] Randomized Cuts [Golovinskiy and Funkhouser 08] Our approach

32 Segmentation Comparisons Shape Diameter [Shapira et al. 10] Randomized Cuts [Golovinskiy and Funkhouser 08] Our approach

33 Learning different segmentation styles Training Meshes Test Meshes Head Torso Leg Tail Ear Neck Head Middle Torso Back Torso Front Leg Back Leg Front Torso Tail

34 Generalization to different categories Head Wing Body Tail Head Neck Torso Leg

35 Torso Leg Failure cases Face Neck Hair Nose Handle Cup

36 Adjacent segments with the same label are merged Limitations Head Tors o Upper arm Lower arm Hand Upper leg Lower leg Foot

37 Limitations Results depend on having sufficient training data Handle Cup Top Spout 19 training meshes 3 training meshes

38 Many features are sensitive to topology Limitations Head Tors o Upper arm Lower arm Hand Upper leg Lower leg Foot

39 Applications: Character Texturing, Rigging Ear Head Tors o Back Upper arm Lower arm Hand Upper leg Lower leg Foot Tail

40 Summary Use prior knowledge for 3D mesh segmentation and labeling Based on a Conditional Random Field model Parameters are learned from examples Applicable to a broad range of meshes Significant improvements over the state-of-the- art

41 Thank you! Acknowledgements: Xiaobai Chen, Aleksey Golovinskiy, Thomas Funkhouser, Szymon Rusinkiewicz, Olga Veksler, Daniela Giorgi, AIM@SHAPE, David Fleet, Olga Vesselova, John Hancock Our project web page: http://www.dgp.toronto.edu/~kalo/papers/LabelMeshes/

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