Meekyoung Kim scite author profile

Data driven models of human poses and soft-tissue deformations can produce very realistic results, but they only model the visible surface of the human body and cannot create skin deformation due to interactions with the environment. Physical simulations can generalize to external forces, but their parameters are difficult to control. In this paper, we present a layered volumetric human body model learned from data. Our model is composed of a data-driven inner layer and a physics-based external layer. The inner layer is driven with a volumetric statistical body model (VSMPL). The soft tissue layer consists of a tetrahedral mesh that is driven using the finite element method (FEM). Model parameters, namely the segmentation of the body into layers and the soft tissue elasticity, are learned directly from 4D registrations of humans exhibiting soft tissue deformations. The learned two layer model is a realistic full-body avatar that generalizes to novel motions and external forces. Experiments show that the resulting avatars produce realistic results on held out sequences and react to external forces. Moreover, the model supports the retargeting of physical properties from one avatar when they share the same topology.

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Diabetic retinopathy is associated with subclinical atherosclerosis in newly diagnosed type 2 diabetes mellitus

Son

Jang

Kim

et al. 2011

Diabetes Research and Clinical Practice

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Association of serum bone morphogenetic protein 4 levels with obesity and metabolic syndrome in non-diabetic individuals

et al. 2011

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Meekyoung Kim

Clinical, Histopathological, and Molecular Characteristics of Papillary Thyroid Microcarcinoma

Data-driven physics for human soft tissue animation

Diabetic retinopathy is associated with subclinical atherosclerosis in newly diagnosed type 2 diabetes mellitus

Association of serum bone morphogenetic protein 4 levels with obesity and metabolic syndrome in non-diabetic individuals

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