Augmented and virtual reality systems (AR/VR) are rapidly becoming key components of the wireless landscape. For immersive AR/VR experience, these devices should be able to construct accurate depth perception of the surrounding environment. Current AR/VR devices rely heavily on using RGB-D depth cameras to achieve this goal. The performance of these depth cameras, however, has clear limitations in several scenarios, such as the cases with shiny objects, dark surfaces, and abrupt color transition among other limitations. In this paper, we propose a novel solution for AR/VR depth map construction using mmWave MIMO communication transceivers. This is motivated by the deployment of advanced mmWave communication systems in future AR/VR devices for meeting the high data rate demands and by the interesting propagation characteristics of mmWave signals. Accounting for the constraints on these systems, we develop a comprehensive framework for constructing accurate and high-resolution depth maps using mmWave systems. In this framework, we developed new sensing beamforming codebook approaches that are specific for the depth map construction objective. Using these codebooks, and leveraging tools from successive interference cancellation, we develop a joint beam processing approach that can construct high-resolution depth maps using practical mmWave antenna arrays. Extensive simulation results highlight the potential of the proposed solution in building accurate depth maps. Further, these simulations show the promising gains of mmWave based depth perception compared to RGB-based approaches in several important use cases.
翻译:强化和虚拟现实系统(AR/VR)正在迅速成为无线地貌的关键组成部分。根据沉浸式AR/VR的经验,这些装置应该能够建立对周围环境的准确深度感知。目前的AR/VR装置在很大程度上依赖于使用RGB-D深度摄像头来实现这一目标。但是,这些深度摄像头的性能在几种情景中有着明显的局限性,例如光亮天体、暗色表面和突然的色彩转换等。在本文件中,我们提出了使用毫米Wave MIMIM通信转发器建造AR/VR深度地图的新解决方案。这得益于在未来的AR/VR装置中部署先进的毫米Wave通信系统以满足高数据率需求,并得益于毫米Wave信号的令人感兴趣的传播特性。考虑到这些系统的局限性,我们为使用毫米Wave系统构建准确和高分辨率的深度地图制定了一个全面框架。在这个框架中,我们开发了用于深度地图建设具体目标的基于代码库的新方法。利用这些代码集,并利用连续干扰深度的深度测深度测试工具来完成高清晰度测测测,我们开发了以高分辨率深度测测测测的模型的方法,从而展示了这些高分辨率测测算结果。