Abstract
This paper treats IntelligentBox: a constructive visual software development system for 3D graphics applications and the authors propose the usefulness of IntelligentBox by showing one of the practical 3D graphics applications, i.e., a web-based collaborative VR training system for the operation of radiation therapy devices. Medical students have to train the operation of medical therapy devices as a therapist if they want to be so. However, radiation therapy devices are very expensive and dangerous, so any training systems are needed. The research group of the authors have already proposed a web-based collaborative VR training system for the operation of radiation therapy devices and also introduced IntelligentBox. This time, the authors tried to develop a training system that has the same functionality as the already developed system using IntelligentBox to show how easily it can be developed for justifying the usefulness of IntelligentBox.
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References
HTC VIVE, 15 March 2019. https://www.vive.com/us/product/vive-virtual-reality-system/
Oculus Rift, 15 March 2019. https://www.oculus.com/
Okada, Y., Ogata, T., Matsuguma, H.: Component-based approach for prototyping of Tai Chi-based physical therapy game and its performance evaluations. ACM Comput. Entertain. 14(1), 4:1–4:20 (2016)
Akase, R., Okada, Y.: Automatic 3D furniture layout based on interactive evolutionary computation. In: Proceedings of the 5th International Workshop on Virtual Environment and Network Oriented Applications (VENOA 2013) of CISIS 2013, pp. 726–731. IEEE CS Press (2013)
Kosuki, Y., Okada, Y.: 3D visual component based development system for medical training systems supporting haptic devices and their collaborative environments. In: Proceedings of the 4th International Workshop on Virtual Environment and Network Oriented Applications (VENOA 2012) of CISIS 2012, pp. 687–692. IEEE CS Press (2012)
Miyahara, K., Okada, Y.: Collada-based file format for various attributes of realistic objects in networked VR applications supporting various peripherals. J. Mob. Multimedia 6(2), 128–144 (2010)
Kuroda, K., Kaneko, K., Fujibuchi, T., Okada, Y.: Web-based VR system for operation training of medical therapy devices. In: Proceedings of the 10 International Workshop on Virtual Environment and Network Oriented Applications (VENOA 2018) of CISIS 2018, pp. 768–777. Springer (2018)
TrueBeam, 8 April 2018. https://www.varian.com/ja/oncology/products/treatment-delivery/truebeam-radiotherapy-system
Kuroda, K., Kaneko, K., Fujibuchi, T., Okada, Y.: Web-based operation training system of medical therapy devices using VR/AR devices. In: 2018 The 13th International Conference on Broadband and Wireless Computing, Communication and Applications (BWCCA 2018), pp. 250–259 (2018)
Kuroda, K., Kaneko, K., Fujibuchi, T., Okada, Y.: Web-based collaborative VR training system for operation of radiation therapy devices. In: Proceedings of the 11th International Workshop on Virtual Environment and Network Oriented Applications (VENOA 2019) of CISIS 2019, pp. 768–778. Springer (2018)
Okada, Y., Tanaka, Y.: IntelligentBox: a constructive visual software development system for interactive 3D graphic applications. In: Proceedings of Computer Animation 1995, pp. 114–125 (1995)
Okada, Y.: IntelligentBox as development system for SaaS applications including web-based 3D games. In: Proceedings of the 9th Annual European GAMEON Conference, pp. 22–26 (2008)
Okada, Y.: Web version of IntelligentBox (WebIB) for development of web 3D educational contents. In: Proceedings of IADIS International Conference of Mobile Learning 2011, pp. 251–255 (2011)
Okada, Y.: Web version of IntelligentBox (WebIB) and its integration with webble world, webble technology. In: Proceedings of First Webble World Summit (WWS 2013). CCIS Series, vol. 372, pp. 11–20 (2013)
Okada, Y.: Web version of IntelligentBox (WebIB) and its extension for web-based VR applications – WebIBVR. In: Proceedings of the 14th International Conference on Broad-Band Wireless Computing, Communication and Applications (BWCCA 2019), pp. 303–314. Springer (2019)
Okada, Y., Ura, T.: IntelligentBox for web-based VR applications (WebIBVR) and its collaborative virtual environments. In: EIDWT, pp. 503–515 (2020)
Imura, K., Fujibuchi, T., Kaneko, K., Hamada, E., Hirata, H.: Evaluation of the normal tissues dose and exposure efficiency in lung-stereotactic body radiation therapy. In: The 44th Autum Scientific Congress, Japanese Society of Radiological Technology, 13–15 October 2016. (in Japanese)
Unity 3D, August 2019. https://unity3d.com/
Vox+ Z3, 15 March 2019. http://www.vox-vr.com/vox-z3-vr-virtual-reality-headset-vr-glasses.html
SONY DUALSHOCK 4, 15 March 2019. https://www.playstation.com/en-us/explore/accessories/gaming-controllers/dualshock-4/
Leap Motion Controller, 15 March 2019. https://www.leapmotion.com/
Three.js, 15 March 2019. https://threejs.org/
WebGL API, 15 March 2019. https://developer.mozilla.org/en-US/docs/Web/API/WebGL_API
Socket.IO, 15 March 2019. https://socket.io/
Node.js, 15 March 2019. https://nodejs.org/en/
Gamepad API, 15 March 2019. https://developer.mozilla.org/en-US/docs/Web/API/Gamepad_API
LeapJS, 15 March 2019. https://developer-archive.leapmotion.com/getting-started/javascript
Okada, Y.: Real-time character animation using puppet metaphor. In: IFIP First International Workshop on Entertainment Computing (IWEC 2002), pp. 101–108 (2003)
Okada, Y.: Real-time motion generation of articulated figures using puppet/marionette metaphor for interactive animation systems. In: Proceedings of the 3rd IASTED International Conference on Visualization, Imaging, and Image Processing (VIIP 2003), pp. 13–18. ACTA Press (2003)
Okada, Y., Shinpo, K., Tanaka, Y., Thalmann, D.: Virtual input devices based on motion capture and collision detection. In: Proceedings of Computer Animation 1999, pp. 201–209. IEEE CS Press (1999)
Okada, Y.: 3D visual component based approach for immersive collaborative virtual environments. In: ACM SIGMM 2003 Workshop on Experiential Telepresence (ETP 2003), pp. 84–90 (2003)
Okada, Y.: 3D visual component based approach for effective telepresence systems. In: Proceedings of ACM SIGMM 2004 Workshop on Effective Telepresence: Toward Seamless Remote Interaction and Experience (ETP 2004), Demo Paper, pp. 46–47 (2004)
Okada, Y., Tanaka, Y.: Collaborative environments of IntelligentBox for distributed 3D graphics applications. Vis. Comput. 14(4), 140–152 (1998)
Acknowledgments
This research was partially supported by JSPS KAKENHI Grant No. JP17H00773 and we would like to appreciate Mr. Kotaro Kuroda for his support.
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Okada, Y., Kaneko, K., Fujibuchi, T. (2021). IntelligentBox Based Training System for Operation of Radiation Therapy Devices. In: Barolli, L., Poniszewska-Maranda, A., Enokido, T. (eds) Complex, Intelligent and Software Intensive Systems. CISIS 2020. Advances in Intelligent Systems and Computing, vol 1194. Springer, Cham. https://doi.org/10.1007/978-3-030-50454-0_18
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