References
- X-5 MONTE CARLO TEAM, “MCNP—A General Monte Carlo N-Particle Transport Code, Version 5 Volume I Overview and Theory,” LA-UR-03-1987, Rev., Los Alamos National Laboratory (Mar. 2010).
- T. SATO et al., “Features of Particle and Heavy Ion Transport Code System (PHITS) Version 3.02,” J. Nucl. Sci. Technol., 55, 6, 684 (2018); http://dx.doi.org/10.1080/00223131.2017.1419890.
- L. SCHWARZ, R. A. SCHWARZ, and A. R. SCHWARZ, “The Visual Editor for MCNPX,” Schwarz Software & Consulting, LLC.; http://www.mcnpvised.com/visualeditor/visualeditor.html (accessed Nov. 11, 2022).
- J. B. SPENCER, J. A. KULESZA, and A. SOOD, “White Paper 3D Geometry Visualization Capability for MCNP,” LA-UR-17-24668, Los Alamos National Laboratory (June 2017).
- S. OHNISHI, “Gxsview: Geometry and Cross Section Viewer for Calculating Radiation Transport,” SoftwareX, 14, 100681 (2021); http://dx.doi.org/10.1016/j.softx.2021.100681.
- J. NAISH and A. BURNS, “Minimising Operator Dose During JET Shutdown Using Virtual,” Fusion Eng. Des., 124, 1215 (2017); http://dx.doi.org/10.1016/j.fusengdes.2017.03.131.
- T. HE et al., “Virtual Reality-Based Simulation of ADS Spallation Target Maintenance,” Trans. Am. Nucl. Soc., 113, 981 (2015).
- M. SMITH et al., “Virtual Reality Visualization of Dose Rate Fields for Dose Rate Planning and Optimization Using ADEPT-PSIM,” Proc. 14th Int. Conf. Radiation Shielding and 21st Topl. Mtg. Radiation Protection and Shielding Division, Seattle, Washington, September 25–29, 2022, American Nuclear Society (2022); https://doi.org/10.13182/ICRSRPSD22-39147.
- K. KAWABATA et al., “Start Up of Naraha Remote Technology Development Center (NRTDC) and Consideration of Deployed Robot Operation for New Standard Testing Method,” Japan Atomic Energy Agency; https://www.nist.gov/system/files/documents/2016/08/25/Session2_Presentation3_Kawabata_Startup-of-Naraha-Remote-Technology-Development-Center-and-Consideration-of-Deployed-Robot-Operation-for-New-Standard-Testing-Method.pdf (accessed Nov. 11, 2022).
- Naraha Remote Technology Development Center website, Christie Digital Systems USA, Inc.; https://www.christiedigital.com/help-center/customer-stories/naraha-remote-technology-development-center-en/ (accessed Nov. 11, 2022).
- S. OHNISHI, “VR System for Monte Carlo Transport Simulation Codes Using Web Technology and Commodity Devices,” Proc. 14th Int. Conf. Radiation Shielding and 21st Topl. Mtg. Radiation Protection and Shielding Division, Seattle, Washington, September 25–29, 2022, American Nuclear Society (2022); http://dx.doi.org/10.13182/ICRSRPSD22-39405.
- T. J. HOLOWAYCHUK et al., “Express—Node.js Web Application Framework,” OpenJS Foundation; https://expressjs.com (accessed Nov. 11, 2022).
- R. DAHL, “Node.js,” OpenJS Foundation; https://nodejs.org/ (accessed Nov. 11, 2022).
- “Node-API | Node.js v19.0.1 Documentation”; https://nodejs.org/api/n-api.html#node-api (accessed Nov. 11, 2022).
- W. E. LORENSEN and H. E. CLINE, “Marching Cubes: A High Resolution 3D Surface Construction Algorithm,” ACM SIGGRAPH Computer Graphics, 21, 4, 163 (1987); http://dx.doi.org/10.1145/37402.37422.
- J. WALKE, “React—A JavaScript Library for Building User Interfaces,” Meta Platforms, Inc., https://reactjs.org (accessed Nov. 11, 2022).
- “MUI: The React Component Library You Always Wanted,” Material UI SAS; https://mui.com/ accessed Nov. 11, 2022).
- M. ZABRISKIE, “Axios,” The Axios Project; https://axios-http.com/ (accessed Nov. 11, 2022).
- INDIVIDUAL MOZILLA.ORG CONTRIBUTORS, “WebXR Device API-web APIs,” Mozilla Foundation; https://developer.mozilla.org/en-US/docs/Web/API/WebXR_Device_API.
- R. CABELLO, “Three.js—JavaScript 3D Library”; https://threejs.org (accessed Nov. 11, 2022).
- P. HENSCHEL, “React-three-fiber”; https://github.com/pmndrs/react-three-fiber (accessed Nov. 11, 2022).
- O. DUBENKO, “GitHub—pmndrs/react-xr: VR/AR with react-three-fiber”; https://github.com/pmndrs/react-xr (accessed Jan. 5, 2023).
- E. WALLACE, “GitHub—evanw/csg.js: Constructive Solid Geometry on Meshes Using BSP Trees in JavaScript”; https://github.com/evanw/csg.js (accessed Nov. 11, 2022).
- T. DABROWSKI, “GitHub—dabroz/csgjs-cpp: CSG Library for C++, Port of https://github.com/evanw/CSG.js/”; https://github.com/dabroz/csgjs-cpp (accessed Nov. 11, 2022).
- “International Criticality Safety Benchmark Evaluation Project Handbook 2019,” Organisation for Economic Co-operation and Development, Nuclear Energy Agency (2019).
- “Meta Quest VR Headsets, Accessories & Equipment | Meta Quest | Meta Store,” Meta Platforms, Inc.; https://www.meta.com/jp/en/quest/ (accessed Nov. 11, 2022).
- “Google Cardboard—Google VR,” Google LLC.; https://arvr.google.com/intl/en_us/cardboard/ (accessed Nov. 11, 2022).
- MIFUNETAKASHI, “Kawaii Free Sozai-syu Irasutoya” (in Japanese); https://www.irasutoya.com/ (accessed Nov. 11, 2022).
- “PHITS Home Page,” Japan Atomic Energy Agency; https://phits.jaea.go.jp/examples.html (accessed Jan. 5, 2023).
- “ECMAScript® 2021 Language Specification,” Ecma International; https://262.ecma-international.org/12.0/#sec-ecmascript-language-types-string-type (accessed Nov. 11, 2022).