D. Dansereau, G. Schuster, J. Ford, Gordon Wetzstein
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引用次数: 30
Abstract
Light field (LF) capture and processing are important in an expanding range of computer vision applications, offering rich textural and depth information and simplification of conventionally complex tasks. Although LF cameras are commercially available, no existing device offers wide field-of-view (FOV) imaging. This is due in part to the limitations of fisheye lenses, for which a fundamentally constrained entrance pupil diameter severely limits depth sensitivity. In this work we describe a novel, compact optical design that couples a monocentric lens with multiple sensors using microlens arrays, allowing LF capture with an unprecedented FOV. Leveraging capabilities of the LF representation, we propose a novel method for efficiently coupling the spherical lens and planar sensors, replacing expensive and bulky fiber bundles. We construct a single-sensor LF camera prototype, rotating the sensor relative to a fixed main lens to emulate a wide-FOV multi-sensor scenario. Finally, we describe a processing toolchain, including a convenient spherical LF parameterization, and demonstrate depth estimation and post-capture refocus for indoor and outdoor panoramas with 15 x 15 x 1600 x 200 pixels (72 MPix) and a 138° FOV.
光场捕获和处理在越来越广泛的计算机视觉应用中非常重要,它提供了丰富的纹理和深度信息,并简化了传统的复杂任务。虽然LF相机在商业上可用,但没有现有的设备提供大视场(FOV)成像。这在一定程度上是由于鱼眼镜头的局限性,因为鱼眼镜头从根本上限制了入口瞳孔直径,严重限制了深度灵敏度。在这项工作中,我们描述了一种新颖的、紧凑的光学设计,它将单心透镜与使用微透镜阵列的多个传感器耦合在一起,从而以前所未有的视场捕获LF。利用LF表示的能力,我们提出了一种新的方法来有效地耦合球面透镜和平面传感器,取代昂贵和笨重的光纤束。我们构建了一个单传感器LF相机原型,相对于固定主镜头旋转传感器来模拟广角多传感器场景。最后,我们描述了一个处理工具链,包括一个方便的球形LF参数化,并演示了15 x 15 x 1600 x 200像素(72 MPix)和138°视场。
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