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CONCEPTUAL DESIGN AND PRELIMINARY RESULTS OF A VR-BASED RADIATION SAFETY TRAINING SYSTEM FOR INTERVENTIONAL RADIOLOGISTS

Yi Guo, Li Mao, Gongsen Zhang, Zhi Chen, Xi Pei, X. George Xu

2020Radiation Protection Dosimetry23 citationsDOI

Abstract

To help minimise occupational radiation exposure in interventional radiology, we conceptualised a virtual reality-based radiation safety training system to help operators understand complex radiation fields and to avoid high radiation areas through game-like interactive simulations. The preliminary development of the system has yielded results suggesting that the training system can calculate and report the radiation exposure after each training session based on a database precalculated from computational phantoms and Monte Carlo simulations and the position information provided by the Microsoft HoloLens headset. In addition, real-time dose rate and cumulative dose will be displayed to the trainee to help them adjust their practice. This paper presents the conceptual design of the overall hardware and software design, as well as preliminary results to combine HoloLens headset and complex 3D X-ray field spatial distribution data to create a mixed reality environment for safety training purpose in interventional radiology.

Topics & Concepts

HeadsetComputer scienceSession (web analytics)Medical physicsMonte Carlo methodSoftwareVirtual realitySimulationHuman–computer interactionMedicineOperating systemTelecommunicationsWorld Wide WebStatisticsMathematicsRadiation Dose and ImagingAdvanced X-ray and CT ImagingRadiology practices and education