基于视觉测量的未知目标运动分析方位角方法

Zian Ning, Yin Zhang, Jianan Li, Zhang Chen, Shiyu Zhao
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引用次数: 0

摘要

基于视觉的移动目标运动估算通常被表述为一个纯方位估算问题,其中视觉测量被建模为方位矢量。虽然只看方位的方法已经研究了几十年,但这种方法的一个根本局限是需要观察者额外的横向运动来增强目标的可观察性。遗憾的是,在许多任务中,额外的横向运动与观察者所需的运动相冲突。众所周知,一旦在图像中检测到目标,就可以得到包围目标的边界框。令人惊讶的是,这种常见的视觉测量方法,尤其是其尺寸信息,迄今为止还没有得到很好的研究。在本文中,我们提出了一种新的方位角方法,通过将目标图像边界框建模为方位角测量值来估计目标的运动。理论分析和实验结果都表明,这种方法可以显著提高可观测性,而无需依赖观测者的额外横向运动。由于边界框是目标检测算法的标准输出,因此采用方位角方法无需额外成本。该方法只是利用了过去未充分利用的信息。无需额外的传感设备或特殊的检测算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A bearing-angle approach for unknown target motion analysis based on visual measurements
Vision-based estimation of the motion of a moving target is usually formulated as a bearing-only estimation problem where the visual measurement is modeled as a bearing vector. Although the bearing-only approach has been studied for decades, a fundamental limitation of this approach is that it requires extra lateral motion of the observer to enhance the target’s observability. Unfortunately, the extra lateral motion conflicts with the desired motion of the observer in many tasks. It is well-known that, once a target has been detected in an image, a bounding box that surrounds the target can be obtained. Surprisingly, this common visual measurement especially its size information has not been well explored up to now. In this paper, we propose a new bearing-angle approach to estimate the motion of a target by modeling its image bounding box as bearing-angle measurements. Both theoretical analysis and experimental results show that this approach can significantly enhance the observability without relying on additional lateral motion of the observer. The benefit of the bearing-angle approach comes with no additional cost because a bounding box is a standard output of object detection algorithms. The approach simply exploits the information that has not been fully exploited in the past. No additional sensing devices or special detection algorithms are required.
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