DocumentCode
1726498
Title
Development of a 3D simulation which can provide better understanding of trainee´s performance of the task using airway management training system WKA-1RII
Author
Wang, Chunbao ; Noh, Yohan ; Ishii, Hiroyuki ; Kikuta, Go ; Ebihara, Kazuki ; Tokumoto, Mitsuhiro ; Okuyama, Isamu ; Yusuke, Matsuoka ; Terunaga, Chihara ; Takanishi, Atsuo ; Hatake, Kazuyuki
Author_Institution
Grad. Sch. of Adv. Sci. & Eng., Waseda Univ., Tokyo, Japan
fYear
2011
Firstpage
2635
Lastpage
2640
Abstract
In the development of medical skill training systems, the efficiency of the system and the provision of quantitative feedback information to the trainee are very important. Furthermore, usage of the simulated operation platform should be as realistic as possible. In order to satisfy these requirements, we developed a robot to be used for airway management training: Waseda KyotoKagaku Airway No.1 Refined RII (WKA-1RII) (Fig. 1). In addition to realistically shaped hardware and various sensory equipments inside the robot, the new training system also uses a binocular vision system, an inertial measurement unit and a 3D simulation software component to track the movements of the trainee. For fully estimating the skills of the trainee and providing richer feedback, it is not enough to only use information about the tool´s movements from the inside of the robot. Therefore, we propose a system to fuse the sensory information from inside the robot with data from 3d vision and from the inertial measurement unit. This accurate information about the movements of the trainee is used to model the progress of the training with a 3d computer graphics simulator. The trainee can use this visualization during or after the training procedure to verify his training status. Using this system he has the possibility to easily compare his performance with a guideline performance provided by an experienced surgeon. In this paper we show a first conceptual application of this approach. The experimental results lead to the consideration that the approach is worth following in further research.
Keywords
computer based training; computer vision; data visualisation; digital simulation; medical robotics; 3D computer graphics simulator; 3D simulation development; 3D simulation software component; 3D vision; WKA-1RII; Waseda KyotoKagaku Airway No.1 Refined RII; airway management training system; binocular vision system; inertial measurement unit; medical skill training system development; quantitative feedback information; robot; task trainee performance; visualization; Atmospheric modeling; Medical services; Sensors; Solid modeling; Three dimensional displays; Tongue; Training;
fLanguage
English
Publisher
ieee
Conference_Titel
Robotics and Biomimetics (ROBIO), 2011 IEEE International Conference on
Conference_Location
Karon Beach, Phuket
Print_ISBN
978-1-4577-2136-6
Type
conf
DOI
10.1109/ROBIO.2011.6181702
Filename
6181702
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