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Regular Paper

Modeling Garment Seam from a Single Image

State Key Laboratory of Virtual Reality Technology and Systems, School of Computer Science and Engineering, Beihang University, Beijing 100191, China
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Abstract

We propose an automatic garment seam modeling framework to create a garment model with the seam structure from a single image. In order to achieve this, a marked seam image database and parametric seam models have been set up. Given a real seam image, we first identify the type of the seam image based on our marked seam image database and the seam parameters are parsed automatically by our sewing thread estimation method. Second the seam initial model is generated through the pre-defined parametric seam models. A garment model with the seam structure is finally obtained based on the seam position information which users have marked on the garment. Moreover, we verify the effectiveness of our method with numerous experiments.

Keywords

image-based 3D modelinggarment modelinggarment seam

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References

[1]

Liu Y J, Zhang D L, Yuen M M F. A survey on CAD methods in 3D garment design. Computers in Industry, 2010, 61(6): 576-593.
Crossref Google Scholar
[2]
Jiang Y, Wang R, Liu Z D. A survey of cloth simulation and applications. In Proc. the 9th International Conf. Computer-Aided Industrial Design and Conceptual Design, November 2008, pp.765-769.
[3]

Fontana M, Carubelli A, Rizzi C, Cugini U. ClothAssembler: A CAD module for feature-based garment pattern assembly. Computer-Aided Design and Applications, 2005, 2(6): 795-804.
Crossref Google Scholar
[4]

Li J T, Lu G D. Modeling 3D garments by examples. Computer-Aided Design, 2014, 49: 28-41.
Crossref Google Scholar
[5]

Liu L, Su Z, Fu X D et al. A data-driven editing framework for automatic 3D garment modeling. Multimedia Tools and Applications, 2017, 76(10): 12597-12626.
Crossref Google Scholar
[6]

Berthouzoz F, Garg A, Kaufman D M, Grinspun E, Agrawala M. Parsing sewing patterns into 3D garments. ACM Trans. Graphics, 2013, 32(4): Article No. 85.
Crossref Google Scholar
[7]
Zhong Y Q, Jiang J F, Wang Z L, Liu H Y. 3D garment prototyping from 2D drawings. In Advanced Research on Computer Science and Information Engineering, Shen G, Huang X (eds.), Springer, 2011, pp.252-257.
Crossref
[8]

Wang C C L, Wang Y, Yuen M M F. Feature based 3D garment design through 2D sketches. Computer-Aided Design, 2003, 35(7): 659-672.
Crossref Google Scholar
[9]

Mok P Y, Xu J, Wang X X, Fan J T, Kwok Y L, Xin J H. An IGA-based design support system for realistic and practical fashion designs. Computer-Aided Design, 2013, 45(11): 1442-1458.
Crossref Google Scholar
[10]
Turquin E, Cani M P, Hughes J F. Sketching garments for virtual characters. In Proc. ACM SIGGRAPH 2007 Courses, August 2007.
Crossref
[11]
Xu W P, Wu Z J, Qiang X H. Interactive garment modeling based on features through sketches. In Proc. the 10th Int. Conf. Virtual Reality Continuum and Its Applications in Industry, December 2011, pp.391-394.
Crossref
[12]

Turquin E, Wither J, Boissieux L, Cani M P, Hughes J F. A sketch-based interface for clothing virtual characters. IEEE Computer Graphics and Applications, 2007, 27(1): 72-81.
Crossref Google Scholar
[13]

Decaudin P, Julius D, Wither J, Boissieux L, Sheffer A, Cani M P. Virtual garments: A fully geometric approach for clothing design. Computer Graphics Forum, 2006, 25(3): 625-634.
Crossref Google Scholar
[14]

Robson C, Maharik R, Sheffer A, Carr N. Context-aware garment modeling from sketches. Computers & Graphics, 2011, 35(3): 604-613.
Crossref Google Scholar
[15]

Zhou B, Chen X W, Fu Q, Guo K, Tan P. Garment modeling from a single image. Computer Graphics Forum, 2013, 32(7): 85-91.
Crossref Google Scholar
[16]

Daněřek R, Dibra E, Öztireli C, Ziegler R, Gross M. Deep-Garment: 3D garment shape estimation from a single image. Computer Graphics Forum, 2017, 36(2): 269-280.
Crossref Google Scholar
[17]

Jeong M H, Han D H, Ko H S. Garment capture from a photograph. Computer Animation & Virtual Worlds, 2015, 26(3/4): 291-300.
Crossref Google Scholar
[18]
Yang S, Ambert T, Pan Z R, Wang K, Yu L C, Berg T, Lin M C. Detailed garment recovery from a single-view image. arXiv: 1608.01250, 2016. https://arxiv/abs/608.01250, March 2018.
[19]

Chen X W, Zhou B, Lu F X, Wang L, Bi L, Tan P. Garment modeling with a depth camera. ACM Trans. Graphics, 2015, 34(6): Article No. 203.
Crossref Google Scholar
[20]
Huang P, Yao J F, Zhao H H. Automatic realistic 3D garment generation based on two images. In Proc. Int. Conf. Virtual Reality and Visualization, Sept. 2016, pp.250-257.
Crossref
[21]

Pons-Moll G, Pujades S, Hu S, Black M J. ClothCap: Seamless 4D clothing capture and retargeting. ACM Trans. Graphics, 2017, 36(4): Article No. 73.
Crossref Google Scholar
[22]

Frâncu M, Moldoveanu F. Virtual try on systems for clothes: Issues and solutions. UPB Scientific Bulletin, Series C, 2015, 77(4): 31-44.
Google Scholar
[23]
Wang J P, Wang R M, Zhou F. 3D virtual garments deformation method based on size-driven. In Proc. the 5th Int. Conf. Digital Home, November 2014, pp.192-197.
Crossref
[24]

Umetani N, Kaufman D M, Igarashi T, Grinspun E. Sensitive couture for interactive garment modeling and editing. ACM Trans. Graphics, 2011, 30(4): Article No. 90.
Crossref Google Scholar
[25]

Bartle A, Sheffer A, Kim V G, Kaufman D M, Vining N, Berthouzoz F. Physics-driven pattern adjustment for direct 3D garment editing. ACM Trans. Graphics, 2016, 35(4): Article No. 50.
Crossref Google Scholar
[26]

Meng Y W, Mok P Y, Jin X G. Computer aided clothing pattern design with 3D editing and pattern alteration. Computer-Aided Design, 2012, 44(8): 721-734.
Crossref Google Scholar
[27]
Spahiu T, Shehi E, Piperi E. Advanced CAD/CAM systems for garment design and simulation. In Proc. the 6th Int. Conf. of Textile, November 2014.
[28]

Felzenszwalb P F, Girshick R B, McAllester D, Ramanan D. Object detection with discriminatively trained part-based models. IEEE Trans. Pattern Analysis and Machine Intelligence, 2010, 32(9): 1627-1645.
Crossref Google Scholar
[29]
Girshick R B, Felzenszwalb P F, McAllester D. Discriminatively trained deformable part models (Version 5). 2012. http://people.cs.uchicago.edu/~rbg/latent-release5/, Mar. 2018.
[30]
He K M, Zhang X Y, Ren S Q, Sun J. Deep residual learning for image recognition. In Proc. the IEEE Conf. Computer Vision and Pattern Recognition, June 2016, pp.770-778.
Crossref
[31]
Glorot X, Bengio Y. Understanding the difficulty of training deep feedforward neural networks. In Proc. the 13th Int. Conf. Artificial Intelligence and Statistics, March 2010, pp.249-256.
[32]

Reinsch C H. Smoothing by spline functions. Numerische Mathematik, 1967, 10(3): 177-183.
Crossref Google Scholar
[33]
Achanta R, Süsstrunk S. Superpixels and polygons using simple non-iterative clustering. In Proc. IEEE Conf. Computer Vision and Pattern Recognition, July 2017, pp.4895-4904.
Crossref
Journal of Computer Science and Technology
Volume 33 Issue 3,
May 2018
Pages 463-474
DOI: 10.1007/s11390-018-1831-6
Cite this article:
Zhang C-X, Chen X-W, Wu H-Y, et al. Modeling Garment Seam from a Single Image. Journal of Computer Science and Technology, 2018, 33(3): 463-474. https://doi.org/10.1007/s11390-018-1831-6

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Received: 04 January 2018
Revised: 05 March 2018
Published: 11 May 2018
©2018 LLC & Science Press, China
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