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Kinematic Skeleton Based Control of a Virtual Simulator for Military Training

Authors
Lee, SoyeonPark, SangjoonChung, KyoilCho, Choongho
Issue Date
6월-2015
Publisher
MDPI
Keywords
Depth sensor; Inertial sensor; Location recognition; Locomotion control; Military training; Velocity estimation; Virtual simulator
Citation
SYMMETRY-BASEL, v.7, no.2, pp.1043 - 1060
Indexed
SCIE
SCOPUS
Journal Title
SYMMETRY-BASEL
Volume
7
Number
2
Start Page
1043
End Page
1060
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/93326
DOI
10.3390/sym7021043
ISSN
2073-8994
Abstract
Virtual simulation technology has been considered as a highly efficient and cost-effective solution for a soldier training system, and evolved into diverse combinations of hardware and software. To maximize the virtual reality effect within a restricted space, a locomotion interface such as an omni-directional treadmill is introduced as a major component of a virtual simulator, therefore real time interaction between human and the virtual simulator becomes very important. Displacement and heading changes of the trainee are crucial information to control the virtual simulator when we implement highly reactive motion control for the omni-directional treadmill and interaction control of the virtual contents. This paper proposes a control parameter estimation algorithm for the virtual training simulator by using two types of motion capture sensors and presents the experimental results. Kinematic joint positions are analyzed to estimate the trainee's location and velocity for feedback and feedforward control of the omni-directional treadmill. The accuracy of two approaches is evaluated by comparing with the reference system, which gives a ground truth value.
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