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2016 | OriginalPaper | Buchkapitel

General Automatic Human Shape and Motion Capture Using Volumetric Contour Cues

verfasst von : Helge Rhodin, Nadia Robertini, Dan Casas, Christian Richardt, Hans-Peter Seidel, Christian Theobalt

Erschienen in: Computer Vision – ECCV 2016

Verlag: Springer International Publishing

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Abstract

Markerless motion capture algorithms require a 3D body with properly personalized skeleton dimension and/or body shape and appearance to successfully track a person. Unfortunately, many tracking methods consider model personalization a different problem and use manual or semi-automatic model initialization, which greatly reduces applicability. In this paper, we propose a fully automatic algorithm that jointly creates a rigged actor model commonly used for animation – skeleton, volumetric shape, appearance, and optionally a body surface – and estimates the actor’s motion from multi-view video input only. The approach is rigorously designed to work on footage of general outdoor scenes recorded with very few cameras and without background subtraction. Our method uses a new image formation model with analytic visibility and analytically differentiable alignment energy. For reconstruction, 3D body shape is approximated as a Gaussian density field. For pose and shape estimation, we minimize a new edge-based alignment energy inspired by volume ray casting in an absorbing medium. We further propose a new statistical human body model that represents the body surface, volumetric Gaussian density, and variability in skeleton shape. Given any multi-view sequence, our method jointly optimizes the pose and shape parameters of this model fully automatically in a spatiotemporal way.

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Moeslund, T.B., Hilton, A., Krüger, V.: A survey of advances in vision-based human motion capture and analysis. Comput. Vis. Image Underst. 104(2), 90–126 (2006)CrossRef

Holte, M.B., Tran, C., Trivedi, M.M., Moeslund, T.B.: Human pose estimation and activity recognition from multi-view videos: comparative explorations of recent developments. IEEE J. Sel. Top. Sign. Proces. 6(5), 538–552 (2012)CrossRef

Elhayek, A., de Aguiar, E., Jain, A., Tompson, J., Pishchulin, L., Andriluka, M., Bregler, C., Schiele, B., Theobalt, C.: Efficient ConvNet-based marker-less motion capture in general scenes with a low number of cameras. In: CVPR, pp. 3810–3818 (2015)

de Aguiar, E., Stoll, C., Theobalt, C., Ahmed, N., Seidel, H.P., Thrun, S.: Performance capture from sparse multi-view video. ACM Trans. Graph. 27(3), 98 (2008)CrossRef

Gall, J., Stoll, C., de Aguiar, E., Theobalt, C., Rosenhahn, B., Seidel, H.P.: Motion capture using joint skeleton tracking and surface estimation. In: CVPR, pp. 1746–1753 (2009)

Zollhöfer, M., Nießner, M., Izadi, S., Rehmann, C., Zach, C., Fisher, M., Wu, C., Fitzgibbon, A., Loop, C., Theobalt, C., Stamminger, M.: Real-time non-rigid reconstruction using an RGB-D camera. ACM Trans. Graph. 33(4), 156 (2014)CrossRef

Stoll, C., Hasler, N., Gall, J., Seidel, H.P., Theobalt, C.: Fast articulated motion tracking using a sums of Gaussians body model. In: ICCV, pp. 951–958 (2011)

Shotton, J., Sharp, T., Kipman, A., Fitzgibbon, A., Finocchio, M., Blake, A., Cook, M., Moore, R.: Real-time human pose recognition in parts from single depth images. Commun. ACM 56(1), 116–124 (2013)CrossRef

Bogo, F., Black, M.J., Loper, M., Romero, J.: Detailed full-body reconstructions of moving people from monocular RGB-D sequences. In: ICCV, pp. 2300–2308 (2015)

10.

Tong, J., Zhou, J., Liu, L., Pan, Z., Yan, H.: Scanning 3D full human bodies using Kinects. IEEE Trans. Vis. Comput. Graph. 18(4), 643–650 (2012)CrossRef

11.

Helten, T., Baak, A., Bharaj, G., Müller, M., Seidel, H.P., Theobalt, C.: Personalization and evaluation of a real-time depth-based full body tracker. In: 3DV, pp. 279–286 (2013)

12.

Newcombe, R.A., Fox, D., Seitz, S.M.: DynamicFusion: Reconstruction and tracking of non-rigid scenes in real-time. In: CVPR, pp. 343–352 (2015)

13.

Kakadiaris, I.A., Metaxas, D.: Three-dimensional human body model acquisition from multiple views. Int. J. Comput. Vis. 30(3), 191–218 (1998)CrossRef

14.

Ahmed, N., de Aguiar, E., Theobalt, C., Magnor, M., Seidel, H.P.: Automatic generation of personalized human avatars from multi-view video. In: ACM Symposium on Virtual Reality Software and Technology, pp. 257–260 (2005)

15.

Bălan, A.O., Sigal, L., Black, M.J., Davis, J.E., Haussecker, H.W.: Detailed human shape and pose from images. In: CVPR (2007)

16.

Rhodin, H., Robertini, N., Richardt, C., Seidel, H.P., Theobalt, C.: A versatile scene model with differentiable visibility applied to generative pose estimation. In: ICCV (2015)

17.

Hilton, A., Beresford, D., Gentils, T., Smith, R., Sun, W.: Virtual people: capturing human models to populate virtual worlds. In: Computer Animation, pp. 174–185 (1999)

18.

Bălan, A.O., Black, M.J.: The naked truth: estimating body shape under clothing. In: Forsyth, D., Torr, P., Zisserman, A. (eds.) ECCV 2008, Part II. LNCS, vol. 5303, pp. 15–29. Springer, Heidelberg (2008)CrossRef

19.

Theobalt, C., de Aguiar, E., Stoll, C., Seidel, H.P., Thrun, S.: Performance capture from multi-view video. In: Ronfard, R., Taubin, G. (eds.) Image and Geometry Processing for 3-D Cinematography. Geometry and Computing, pp. 127–149. Springer, Heidelberg (2010)CrossRef

20.

Wu, C., Stoll, C., Valgaerts, L., Theobalt, C.: On-set performance capture of multiple actors with a stereo camera. ACM Trans. Graph. 32(6), 161 (2013)

21.

Wu, C., Varanasi, K., Theobalt, C.: Full body performance capture under uncontrolled and varying illumination: a shading-based approach. In: Fitzgibbon, A., Lazebnik, S., Perona, P., Sato, Y., Schmid, C. (eds.) ECCV 2012, Part IV. LNCS, vol. 7575, pp. 757–770. Springer, Heidelberg (2012)

22.

Vlasic, D., Baran, I., Matusik, W., Popović, J.: Articulated mesh animation from multi-view silhouettes. ACM Trans. Graph. 27(3), 97 (2008)CrossRef

23.

Starck, J., Hilton, A.: Model-based multiple view reconstruction of people. In: ICCV, pp. 915–922 (2003)

24.

Ballan, L., Cortelazzo, G.M.: Marker-less motion capture of skinned models in a four camera set-up using optical flow and silhouettes. In: 3DPVT (2008)

25.

Allain, B., Franco, J.S., Boyer, E.: An efficient volumetric framework for shape tracking. In: CVPR, pp. 268–276 (2015)

26.

Guan, P., Weiss, A., Bălan, A.O., Black, M.J.: Estimating human shape and pose from a single image. In: ICCV, pp. 1381–1388 (2009)

27.

Guo, Y., Chen, X., Zhou, B., Zhao, Q.: Clothed and naked human shapes estimation from a single image. In: Hu, S.-M., Martin, R.R. (eds.) CVM 2012. LNCS, vol. 7633, pp. 43–50. Springer, Heidelberg (2012)CrossRef

28.

Hasler, N., Ackermann, H., Rosenhahn, B., Thormählen, T., Seidel, H.P.: Multilinear pose and body shape estimation of dressed subjects from image sets. In: CVPR, pp. 1823–1830 (2010)

29.

Jain, A., Thormählen, T., Seidel, H.P., Theobalt, C.: MovieReshape: Tracking and reshaping of humans in videos. ACM Trans. Graph. 29(5) (2010)

30.

Plankers, R., Fua, P.: Articulated soft objects for multi-view shape and motion capture. IEEE Trans. Pattern Anal. Mach. Intell. 25(9), 63–83 (2003)CrossRef

31.

Ilic, S., Fua, P.: Implicit meshes for surface reconstruction. IEEE Trans. Pattern Anal. Mach. Intell. 28(2), 328–333 (2006)CrossRef

32.

Cui, Y., Chang, W., Nöll, T., Stricker, D.: KinectAvatar: fully automatic body capture using a single Kinect. In: ACCV Workshops, pp. 133–147 (2012)

33.

Anguelov, D., Srinivasan, P., Koller, D., Thrun, S., Rodgers, J., Davis, J.: SCAPE: shape completion and animation of people. ACM Trans. Graph. 24(3), 408–416 (2005)CrossRef

34.

Pishchulin, L., Wuhrer, S., Helten, T., Theobalt, C., Schiele, B.: Building statistical shape spaces for 3D human modeling. arXiv:1503.05860 (2015)

35.

Loper, M., Mahmood, N., Black, M.J.: MoSh: Motion and shape capture from sparse markers. ACM Trans. Graph. 33(6), 220 (2014)CrossRef

36.

Campbell, N.D.F., Vogiatzis, G., Hernández, C., Cipolla, R.: Automatic 3D object segmentation in multiple views using volumetric graph-cuts. In: BMVC, pp. 530–539 (2007)

37.

Wang, T., Collomosse, J., Hilton, A.: Wide baseline multi-view video matting using a hybrid Markov random field. In: ICPR, pp. 136–141 (2014)

38.

Djelouah, A., Franco, J.S., Boyer, E., Le Clerc, F., Pérez, P.: Sparse multi-view consistency for object segmentation. IEEE Trans. Pattern Anal. Mach. Intell. 37(9), 1890–1903 (2015)CrossRef

39.

Szeliski, R., Golland, P.: Stereo matching with transparency and matting. In: ICCV, pp. 517–524 (1998)

40.

Guillemaut, J.Y., Hilton, A.: Joint multi-layer segmentation and reconstruction for free-viewpoint video applications. Int. J. Comput. Vis. 93(1), 73–100 (2011)CrossRef

41.

Bray, M., Kohli, P., Torr, P.H.S.: PoseCut: simultaneous segmentation and 3D pose estimation of humans using dynamic graph-cuts. In: Leonardis, A., Bischof, H., Pinz, A. (eds.) ECCV 2006. LNCS, vol. 3952, pp. 642–655. Springer, Heidelberg (2006). doi:10.1007/11744047_49 CrossRef

42.

Mustafa, A., Kim, H., Guillemaut, J.Y., Hilton, A.: General dynamic scene reconstruction from multiple view video. In: ICCV (2015)

43.

Hasler, N., Rosenhahn, B., Thormahlen, T., Wand, M., Gall, J., Seidel, H.P.: Markerless motion capture with unsynchronized moving cameras. In: CVPR, pp. 224–231 (2009)

44.

Deutscher, J., Blake, A., Reid, I.: Articulated body motion capture by annealed particle filtering. In: CVPR, pp. 126–133 (2000)

45.

Sidenbladh, H., Black, M.J.: Learning the statistics of people in images and video. Int. J. Comput. Vis. 54(1–3), 183–209 (2003)MATH

46.

Sigal, L., Isard, M., Haussecker, H., Black, M.J.: Loose-limbed people: estimating 3D human pose and motion using non-parametric belief propagation. Int. J. Comput. Vis. 98(1), 15–48 (2012)MathSciNetCrossRefMATH

47.

Kehl, R., Bray, M., Van Gool, L.: Markerless full body tracking by integrating multiple cues. In: ICCV Workshop on Modeling People and Human Interaction (2005)

48.

Kollnig, H., Nagel, H.H.: 3D pose estimation by fitting image gradients directly to polyhedral models. In: ICCV, pp. 569–574 (1995)

49.

Wachter, S., Nagel, H.H.: Tracking of persons in monocular image sequences. In: Nonrigid and Articulated Motion Workshop, pp. 2–9 (1997)

50.

Tompson, J.J., Jain, A., LeCun, Y., Bregler, C.: Joint training of a convolutional network and a graphical model for human pose estimation. In: NIPS, pp. 1799–1807 (2014)

51.

Felzenszwalb, P.F., Huttenlocher, D.P.: Pictorial structures for object recognition. Int. J. Comput. Vis. 61(1), 55–79 (2005)CrossRef

52.

Andriluka, M., Roth, S., Schiele, B.: Pictorial structures revisited: people detection and articulated pose estimation. In: CVPR, pp. 1014–1021 (2009)

53.

Amin, S., Andriluka, M., Rohrbach, M., Schiele, B.: Multi-view pictorial structures for 3D human pose estimation. In: BMVC (2013)

54.

Belagiannis, V., Amin, S., Andriluka, M., Schiele, B., Navab, N., Ilic, S.: 3D pictorial structures for multiple human pose estimation. In: CVPR, pp. 1669–1676 (2014)

55.

Park, H.S., Shiratori, T., Matthews, I., Sheikh, Y.: 3D trajectory reconstruction under perspective projection. Int. J. Comput. Vis. 115(2), 115–135 (2015)MathSciNetCrossRef

56.

Fayad, J., Russell, C., Agapito, L.: Automated articulated structure and 3D shape recovery from point correspondences. In: ICCV, pp. 431–438 (2011)

57.

Allen, B., Curless, B., Popović, Z.: The space of human body shapes: reconstruction and parameterization from range scans. ACM Trans. Graph. 22(3), 587–594 (2003)CrossRef

58.

Loper, M., Mahmood, N., Romero, J., Pons-Moll, G., Black, M.J.: SMPL: a skinned multi-person linear model. ACM Trans. Graph. 34(6), 248 (2015)CrossRef

59.

Hasler, N., Stoll, C., Sunkel, M., Rosenhahn, B., Seidel, H.P.: A statistical model of human pose and body shape. Comput. Graph. Forum 28(2), 337–346 (2009)CrossRef

60.

Lewis, J.P., Cordner, M., Fong, N.: Pose space deformation: a unified approach to shape interpolation and skeleton-driven deformation. In: SIGGRAPH, pp. 165–172 (2000)

61.

Cerezo, E., Pérez, F., Pueyo, X., Seron, F.J., Sillion, F.X.: A survey on participating media rendering techniques. Vis. Comput. 21(5), 303–328 (2005)CrossRef

62.

Kim, H., Hilton, A.: Influence of colour and feature geometry on multi-modal 3D point clouds data registration. In: 3DV, pp. 202–209 (2014)

63.

Sigal, L., Bălan, A.O., Black, M.J.: HumanEva: synchronized video and motion capture dataset and baseline algorithm for evaluation of articulated human motion. Int. J. Comput. Vis. 87, 4–27 (2010)CrossRef

Titel: General Automatic Human Shape and Motion Capture Using Volumetric Contour Cues
verfasst von: Helge Rhodin
Nadia Robertini
Dan Casas
Christian Richardt
Hans-Peter Seidel
Christian Theobalt
Verlag: Springer International Publishing
Buch: Computer Vision – ECCV 2016
Print ISBN: 978-3-319-46453-4

Electronic ISBN: 978-3-319-46454-1

Copyright-Jahr: 2016
DOI: https://doi.org/10.1007/978-3-319-46454-1_31

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