Abstract
Marker labeling plays an important role in optical motion capture pipeline especially in real-time applications; however, the accuracy of online marker labeling is still unclear. This paper presents a novel accurate real-time online marker labeling algorithm for simultaneously dealing with missing and ghost markers. We first introduce a soft graph matching model that automatically labels the markers by using Hungarian algorithm for finding the global optimal matching. The key idea is to formulate the problem in a combinatorial optimization framework. The objective function minimizes the matching cost, which simultaneously measures the difference of markers in the model and data graphs as well as their local geometrical structures consisting of edge constraints. To achieve high subsequent marker labeling accuracy, which may be influenced by limb occlusions or self-occlusions, we also propose an online high-quality full-body pose reconstruction process to estimate the positions of missing markers. We demonstrate the power of our approach by capturing a wide range of human movements and achieve the state-of-the-art accuracy by comparing against alternative methods and commercial system like VICON.
Highlights
Motion capture technology has been widely used to create natural human animations in real-time live applications as virtual training, virtual prototyping, computer games and computer animated puppetry [1]
We demonstrate the power of our approach by comparing against alternative state-of-the-art methods and commercial system as VICON on a wide range of motion capture data with missing/ghost markers
We show the accurate marker labeling results to demonstrate the capability of handling with ghost markers as well as facial motions with none rigid constraints (Sect. 5.3)
Summary
Motion capture technology has been widely used to create natural human animations in real-time live applications as virtual training, virtual prototyping, computer games and computer animated puppetry [1]. Passive optical motion capture system, like VICON [2], is used in most applications because of its high precision and low intrusion. It only records 3D markers’ positions without any physical meaning (unlabeled). The goal of practical marker labeling task is to (1) solve the correspondences problem for moving markers while (2) provide a solution to deal with missing and/or ghost markers which will lead to motion reconstruction ambiguities. By regarding labeled markers at previous frame and unlabeled markers at current frame as model graph and data graph, respectively, we formulate marker label-
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