Illuminating the augmented reality stage: Assessment of lighting conditions for space exploration

Proceedings of the Human Factors and Ergonomics Society Annual Meeting Pub Date : 2023-09-01 DOI:10.1177/21695067231210845

Alesawy N., Halim P., Nadai M., Son J., Davis S., Teixeira C., Nelson T., Wang A., Holliman-Lopez G., Alesawy S., Stirling L.

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Abstract

Augmented reality (AR) technology faces a prevailing challenge when dealing with harsh lighting environments, which are common in space. The study aims to evaluate the lighting compatibility for successful hand gestures using HoloLens 2, a device that utilizes AR technology for heads-up displays (HUDs), as a potential way to provide critical information to astronauts during extravehicular activities (EVAs). The study modulated luminance (dim, neutral, bright) and hand coverings (bare hand, white glove, black glove) to determine the HoloLens functionality. The results will inform design changes to support the astronaut experience by enhancing hand gesture recognition and reducing time wasted re-gesturing. By understanding the lighting requirements for HoloLens, we can improve the AR experience for future space missions. This study highlights the importance of considering lighting conditions in the development of AR technology, especially in challenging environments like space.

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为增强现实舞台提供照明：评估太空探索的照明条件

增强现实（AR）技术在应对太空中常见的恶劣照明环境时面临着普遍挑战。这项研究旨在评估使用 HoloLens 2 成功做出手势的照明兼容性，HoloLens 2 是一种利用 AR 技术的平视显示器（HUD）设备，是在舱外活动（EVA）期间向宇航员提供关键信息的一种潜在方式。这项研究通过调节亮度（昏暗、中性、明亮）和手部覆盖物（裸手、白手套、黑手套）来确定 HoloLens 的功能。研究结果将为设计变更提供信息，以通过增强手势识别和减少重新比划所浪费的时间来支持宇航员的体验。通过了解 HoloLens 的照明要求，我们可以改善未来太空任务的 AR 体验。这项研究强调了在开发 AR 技术时考虑照明条件的重要性，尤其是在太空这样充满挑战的环境中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Human Factors and Ergonomics Society Annual Meeting

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