追踪传感:在移动VR应用中扩展手部追踪空间

Symposium on Spatial User Interaction Pub Date : 2019-10-19 DOI:10.1145/3357251.3357578

Pascal Chiu, Kazuki Takashima, Kazuyuki Fujita, Y. Kitamura

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引用次数: 13

摘要

视场限制是基于相机的运动跟踪系统持续存在的主要障碍之一，并且仍然需要灵活的方法来提高捕获量。我们提出了一种追踪传感技术，该技术通过使用定制的万向架来自驱动重新定向，从而大大扩展了相机传感器的跟踪体积，从而使Leap Motion能够在移动头戴式显示器场景中动态跟踪用户的手部位置。该技术为用户和开发人员提供了可访问性和高硬件兼容性，同时保持了简单和低成本的实现。我们的技术评估表明，与相机的基本视场相比，所提出的解决方案成功地将手部跟踪体积在俯仰上增加了142%，在偏航上增加了44%，同时具有低延迟和对快速手部运动的鲁棒性。

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Pursuit Sensing: Extending Hand Tracking Space in Mobile VR Applications

Field of view limitations are one of the major persisting setbacks for camera-based motion tracking systems and the need for flexible ways to improve capture volumes remains. We present Pursuit Sensing, a technique to considerably extend the tracking volume of a camera sensor through self-actuated reorientation using a customized gimbal, thus enabling a Leap Motion to dynamically follow the user’s hand position in mobile HMD scenarios. This technique provides accessibility and high hardware compatibility for both users and developers while remaining simple and inexpensive to implement. Our technical evaluation shows that the proposed solution successfully increases hand tracking volume by 142% in pitch and 44% in yaw compared to the camera’s base FOV, while featuring low latency and robustness against fast hand movements.

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Symposium on Spatial User Interaction

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