Development and Assessment of an Ultra-Bright Polarized Head-Mounted Projective Display

超亮偏振头戴式投影显示器的开发和评估

• 批准号: 0534777
• 负责人: Hong Hua
• 金额: $ 31万
• 依托单位: University of Arizona
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2005
• 资助国家: 美国
• 起止时间: 2005-11-01 至 2009-10-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0534777&HistoricalAwards=false
• 关键词: Development; Assessment; Ultra; Bright; Polarized

Mixed- and augmented-reality (MR-AR) techniques extend the virtual reality (VR) paradigm by selectively augmenting the physical environment with computer-generated objects or vice versa, and consequently create tremendous interest in exploring a wide range of applications such as scientific visualization, medical diagnosis and surgery planning, and training and education. However, lack of image brightness common to many existing 3D display systems imposes significant restrictions on the lighting conditions of the working environment, forcing users to turn off or dim room lighting for most MR-AR demonstrations, and eliminating application scenarios where well-illuminated environments cannot be avoided (e.g., outdoor environments and surgical operating rooms). In this project the PI will seek to alleviate this problem by developing a prototype ultra-bright head-mounted polarized projective display, in which advances in optical design coupled with careful manipulation of the polarization state of the light passing through the optical system results in an observed image that is theoretically up to 4 times brighter than is possible to achieve in existing designs. Because the measure of display technology is that it provide quantitative and qualitative visual representations of scenes that conform to a predictive model, the PI will further devise methods for calibrating the new display's parameters, and evaluate both subjective and objective image qualities as well as the accuracy of depth/size representation.Broader Impacts: This research will result in better displays suitable for demanding MR-AR applications where bright and high-contrast virtual images are required and only minimal intrusion by real-world views is acceptable. This in turn will spur development of MR-AR solutions in domains for which illumination has until now been an insurmountable challenge.

混合现实和增强现实 (MR-AR) 技术通过有选择地用计算机生成的对象增强物理环境（反之亦然）来扩展虚拟现实 (VR) 范式，从而引起人们对探索科学可视化、医疗诊断和手术计划以及培训和教育等广泛应用的极大兴趣。 然而，许多现有3D显示系统普遍缺乏图像亮度，这对工作环境的照明条件造成了严重限制，迫使用户在大多数MR-AR演示中关闭或调暗室内照明，并消除了不可避免的照明良好环境的应用场景（例如室外环境和外科手术室）。 在这个项目中，PI 将寻求通过开发原型超亮头戴式偏振投影显示器来缓解这一问题，其中光学设计的进步加上对穿过光学系统的光的偏振状态的仔细操纵，导致观察到的图像理论上比现有设计所能达到的亮度高出 4 倍。 由于显示技术的衡量标准是它提供符合预测模型的场景的定量和定性视觉表示，因此 PI 将进一步设计校准新显示器参数的方法，并评估主观和客观图像质量以及深度/尺寸表示的准确性。 更广泛的影响：这项研究将带来更好的显示器，适合要求严格的 MR-AR 应用，在这些应用中，需要明亮和高对比度的虚拟图像。 现实世界观点的最小程度的干扰是可以接受的。 这反过来又将刺激 MR-AR 解决方案在照明领域迄今为止一直是难以克服的挑战的发展。