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The lack of ecological validity in clinical assessment, as well as the challenge of investigating multimodal sensory processing, remain key challenges in hearing science. Virtual Reality (VR) can support hearing research in these domains by combining experimental control with situational realism. However, the development of VR-based experiments is traditionally highly resource demanding, which places a significant entry barrier for basic and clinical researchers looking to embrace VR as the research tool of choice. The Oticon Medical Virtual Reality (OMVR) experiment platform fast-tracks the creation or adaptation of hearing research experiment templates to be used to explore areas such as binaural spatial hearing, multimodal sensory integration, cognitive hearing behavioral strategies, auditory-visual training, etc. In this paper, the OMVR`s functionalities, architecture, and key elements of implementation are presented, important performance indicators are characterized, and a use-case perceptual evaluation is presented.
Author (s): Pedersen, Rasmus Lundby; Picinali, Lorenzo; Kajs, Nynne; Patou, François
Affiliation:
Oticon Medical, Research & Technology, Smørum, Denmark; Dyson School of Design Engineering, Imperial College London, United Kingdom; Oticon Medical, Research & Technology, Smørum, Denmark; Oticon Medical, Research & Technology, Smørum, Denmark
(See document for exact affiliation information.)
Publication Date:
2023-06-06
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Pedersen, Rasmus Lundby; Picinali, Lorenzo; Kajs, Nynne; Patou, François; 2023; Virtual-Reality-Based Research in Hearing Science: A Platforming Approach [PDF]; Oticon Medical, Research & Technology, Smørum, Denmark; Dyson School of Design Engineering, Imperial College London, United Kingdom; Oticon Medical, Research & Technology, Smørum, Denmark; Oticon Medical, Research & Technology, Smørum, Denmark; Paper ; Available from: https://aes2.org/publications/elibrary-page/?id=22144
Pedersen, Rasmus Lundby; Picinali, Lorenzo; Kajs, Nynne; Patou, François; Virtual-Reality-Based Research in Hearing Science: A Platforming Approach [PDF]; Oticon Medical, Research & Technology, Smørum, Denmark; Dyson School of Design Engineering, Imperial College London, United Kingdom; Oticon Medical, Research & Technology, Smørum, Denmark; Oticon Medical, Research & Technology, Smørum, Denmark; Paper ; 2023 Available: https://aes2.org/publications/elibrary-page/?id=22144
@article{pedersen2023virtual-reality-based,
author={pedersen rasmus lundby and picinali lorenzo and kajs nynne and patou françois},
journal={journal of the audio engineering society},
title={virtual-reality-based research in hearing science: a platforming approach},
year={2023},
volume={71},
issue={6},
pages={374-389},
month={june},}