Calibration of a Computer Controlled Robotic Vision Sensor with a Zoom Lens

CVGIP: Image Understanding Pub Date : 1994-03-01 DOI:10.1006/ciun.1994.1015

Tarabanis K., Tsai R.Y., Goodman D.S.

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引用次数: 35

Abstract

Active vision sensors are increasingly being employed in vision systems for their greater flexibility. For example, vision sensors in hand-eye configurations with computer controllable lenses (e.g., zoom lenses) can be set to values which satisfy the sensing situation at hand. For such applications, it is essential to determine the mapping between the parameters that can actually be controlled in a reconfigurable vision system (e.g., the robot arm pose, the zoom setting of the lens) and the higher-level viewpoint parameters that must be set to desired values (e.g., the viewpoint location, focal length). In this paper we present calibration techniques to determine this mapping. In addition, we discuss how to use these relationships in order to achieve the desired values of the viewpoint parameters by setting the controllable parameters to the appropriate values. The sensor setup that is considered consists of a camera in a hand-eye arrangement equipped with a lens that has zoom, focus, and aperture control. The calibration techniques are applied to the H6 × 12.5R Fujinon zoom lens and the experimental results are shown.

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带变焦镜头的计算机控制机器人视觉传感器的标定

主动视觉传感器因其更大的灵活性而越来越多地应用于视觉系统中。例如，具有计算机控制镜头(例如变焦镜头)的手眼配置的视觉传感器可以设置为满足手头感知情况的值。对于此类应用，确定可重构视觉系统中实际可控制的参数(例如，机械臂姿势，镜头的变焦设置)与必须设置为所需值的高级视点参数(例如，视点位置，焦距)之间的映射是至关重要的。在本文中，我们提出了校准技术来确定这种映射。此外，我们还讨论了如何利用这些关系，通过将可控参数设置为适当的值来实现视点参数的期望值。所考虑的传感器设置包括一个手眼布局的相机，配备有变焦、对焦和光圈控制的镜头。将标定技术应用于H6 × 12.5R富士能变焦镜头，并给出了实验结果。

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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CVGIP: Image Understanding

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