Calculating time-to-contact using real-time quantized optical flow
Ted Camus
- 发表年份
- 1995
- 引用次数
- 55
- 访问权限
- 开放获取
摘要
Despite many recent advances in optical flow research, many robotic vision researchers are frustrated by an inability to obtain reliable optical flow estimates in real-world conditions to apply to real-world tasks. Recently it has been demonstrated that robust, real-time optical flow is possible using standard computing hardware [C94j. One limitation of this correlation-based algorithm is that it does not give truly real-valued image velocity measurements. Therefore, it is not obvious that it can be used for a wide range of robotic vision tasks. One particular application for optical flow is time-to-contact: based on the equations for the expansion of the optical flow field it is possible to compute the number of frames remaining before contact with an observed object. Although the individual motion measurements of this algorithm are of limited precision, they can be combined to produce remarkably accurate time-to-contact measurements, which can be produced in real-time on standard computing hardware. 2
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