Weiguang Si scite author profile

Weiguang Si

2Publications

41Citation Statements Received

100Citation Statements Given

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100

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META Health, University of California, Los Angeles

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Realistic Biomechanical Simulation and Control of Human Swimming

Lee

Sifakis

et al. 2014

ACM Trans. Graph.

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We address the challenging problem of controlling a complex biomechanical model of the human body to synthesize realistic swimming animation. Our human model includes all of the relevant articular bones and muscles, including 103 bones (163 articular degrees of freedom) plus a total of 823 muscle actuators embedded in a finite element model of the musculotendinous soft tissues of the body that produces realistic deformations. To coordinate the numerous muscle actuators in order to produce natural swimming movements, we develop a biomimetically motivated motor control system based on Central Pattern Generators (CPGs), which learns to produce activation signals that drive the numerous muscle actuators.

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UmeTrack: Unified multi-view end-to-end hand tracking for VR

Han

Zhang

et al. 2022

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Fig. 1. The proposed hand tracking method can effectively incorporate information from multi-view image sequences captured by cameras mounted on a VR headset (left) and has been successfully deployed in various VR applications (right).Real-time tracking of 3D hand pose in world space is a challenging problem and plays an important role in VR interaction. Existing work in this space are limited to either producing root-relative (versus world space) 3D pose or rely on multiple stages such as generating heatmaps and kinematic optimization to obtain 3D pose. Moreover, the typical VR scenario, which involves multiview tracking from wide field of view (FOV) cameras is seldom addressed by these methods. In this paper, we present a unified end-to-end differentiable framework for multi-view, multi-frame hand tracking that directly predicts 3D hand pose in world space. We demonstrate the benefits of end-to-end differentiabilty by extending our framework with downstream tasks such as jitter reduction and pinch prediction. To demonstrate the efficacy of our model, we further present a new large-scale egocentric hand pose dataset that consists of both real and synthetic data. Experiments show that our system trained on this dataset handles various challenging interactive motions, and has been successfully applied to real-time VR applications.

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Weiguang Si

Realistic Biomechanical Simulation and Control of Human Swimming

UmeTrack: Unified multi-view end-to-end hand tracking for VR

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