PDF(Pubmed)
Abstract:
In the rapidly advancing field of vision science, traditional research approaches struggle to accurately simulate and evaluate vision correction methods, leading to time-consuming evaluations with limited scope and flexibility. To overcome these challenges, we introduce \'VisionaryVR\', a virtual reality (VR) simulation framework designed to enhance optical simulation fidelity and broaden experimental capabilities. VisionaryVR leverages a versatile VR environment to support dynamic vision tasks and integrates comprehensive eye-tracking functionality. Its experiment manager\'s scene-loading feature fosters a scalable and flexible research platform. Preliminary validation through an empirical study has demonstrated VisionaryVR\'s effectiveness in replicating a wide range of visual impairments and providing a robust platform for evaluating vision correction solutions. Key findings indicate a significant improvement in evaluating vision correction methods and user experience, underscoring VisionaryVR\'s potential to transform vision science research by bridging the gap between theoretical concepts and their practical applications. This validation underscores VisionaryVR\'s contribution to overcoming traditional methodological limitations and establishing a foundational framework for research innovation in vision science.
摘要:
在迅速发展的视觉科学领域,传统的研究方法难以准确地模拟和评估视力矫正方法,导致耗时的评估,范围和灵活性有限。为了克服这些挑战,我们引入\'VisionaryVR\',虚拟现实(VR)仿真框架,旨在增强光学仿真保真度并拓宽实验能力。VisionaryVR利用多功能VR环境来支持动态视觉任务,并集成了全面的眼动跟踪功能。其实验管理器的场景加载功能促进了可扩展且灵活的研究平台。通过实证研究的初步验证证明了VisionaryVR在复制各种视觉障碍方面的有效性,并为评估视力矫正解决方案提供了一个强大的平台。主要研究结果表明,在评估视力矫正方法和用户体验方面有了显着改善,强调VisionaryVR通过弥合理论概念与其实际应用之间的差距来改变视觉科学研究的潜力。这一验证强调了VisionaryVR对克服传统方法论局限性和建立视觉科学研究创新的基础框架的贡献。
