辅助视力的双眼优势评估。

Lawrence K Harrington, John P McIntire, Darrel G Hopper
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引用次数: 3

摘要

微传感器、微处理器和微显示器的进步为通过使用头戴式显示器改善退化环境中的视力创造了新的机会。最初,用于这些新显示器的尖端技术将是昂贵的。不可避免的是,提供额外的传感器和支持双目视所需的处理的成本使双目视的价值受到质疑。几项比较双眼、双眼和单眼头戴式辅助视觉显示器的评估得出结论,双眼头戴式显示器提供的额外性能(如果有的话)并不能证明其成本是合理的。选择用于F-35的双目(校正)显示器是当前这种反复决策过程的一个例子。有可能人类双眼视觉的优势并没有延续到辅助视觉的应用中,但更有可能的是,过去使用的实验方法过于粗糙,无法衡量其微妙但重要的好处。评估双眼视觉在辅助视觉应用中的价值需要了解人类视觉和头戴式显示器的特性。有了这样的理解,就可以估计双眼视觉在辅助视觉中的价值,并收集实验证据来证实或拒绝假定的双眼优势,从而改进辅助视觉系统设计的决策。本文介绍了四种计算方法——立体视觉几何、立体视觉调制传递函数区域、概率求和和双目求和,这可能有助于量化双目在辅助视觉中的优势。
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Assessing the binocular advantage in aided vision.

Advances in microsensors, microprocessors, and microdisplays are creating new opportunities for improving vision in degraded environments through the use of head-mounted displays. Initially, the cutting-edge technology used in these new displays will be expensive. Inevitably, the cost of providing the additional sensor and processing required to support binocularity brings the value of binocularity into question. Several assessments comparing binocular, binocular, and monocular head-mounted displays for aided vision have concluded that the additional performance, if any, provided by binocular head-mounted displays does not justify the cost. The selection of a biocular [corrected] display for use in the F-35 is a current example of this recurring decision process. It is possible that the human binocularity advantage does not carry over to the aided vision application, but more likely the experimental approaches used in the past have been too coarse to measure its subtle but important benefits. Evaluating the value of binocularity in aided vision applications requires an understanding of the characteristics of both human vision and head-mounted displays. With this understanding, the value of binocularity in aided vision can be estimated and experimental evidence can be collected to confirm or reject the presumed binocular advantage, enabling improved decisions in aided vision system design. This paper describes four computational approaches-geometry of stereopsis, modulation transfer function area for stereopsis, probability summation, and binocular summation-that may be useful in quantifying the advantage of binocularity in aided vision.

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Aviation, space, and environmental medicine
Aviation, space, and environmental medicine 医学-公共卫生、环境卫生与职业卫生
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