Shape Models of the Human Body for Distributed Inference

2015

Ph.D. Thesis

ps

In this thesis we address the problem of building shape models of the human body, in 2D and 3D, which are realistic and efficient to use. We focus our efforts on the human body, which is highly articulated and has interesting shape variations, but the approaches we present here can be applied to generic deformable and articulated objects. To address efficiency, we constrain our models to be part-based and have a tree-structured representation with pairwise relationships between connected parts. This allows the application of methods for distributed inference based on message passing. To address realism, we exploit recent advances in computer graphics that represent the human body with statistical shape models learned from 3D scans. We introduce two articulated body models, a 2D model, named Deformable Structures (DS), which is a contour-based model parameterized for 2D pose and projected shape, and a 3D model, named Stitchable Puppet (SP), which is a mesh-based model parameterized for 3D pose, pose-dependent deformations and intrinsic body shape. We have successfully applied the models to interesting and challenging problems in computer vision and computer graphics, namely pose estimation from static images, pose estimation from video sequences, pose and shape estimation from 3D scan data. This advances the state of the art in human pose and shape estimation and suggests that carefully dened realistic models can be important for computer vision. More work at the intersection of vision and graphics is thus encouraged.

@phdthesis{zuffi-thesis,
  title = {Shape Models of the Human Body for Distributed Inference},
  author = {Zuffi, Silvia},
  school = {Brown University},
  month = may,
  year = {2015},
  doi = {},
  month_numeric = {5}
}