基于偏振成像的目标检测系统灵敏度研究

2017 13th IEEE International Conference on Electronic Measurement & Instruments (ICEMI) Pub Date : 2017-10-01 DOI:10.1109/ICEMI.2017.8265808

Gumilar Langlang, Zhang Zhen, Sun Qiyao, Wang Huibin

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引用次数: 0

摘要

偏振检测因其对环境干扰的鲁棒性而成为传统光学检测技术的有益补充。然而，观测几何和成像波段等敏感因素的不确定性限制了偏振成像在目标探测中的实际应用。为了研究其灵敏度，进行了沙地和草地背景下隐身坦克和伪装坦克模型的目标检测实验。结果表明，0°和90°偏振图像的微分运算计算的Q分量比其他分量提供了最大的目标和背景之间的偏振对比度。最后，通过测量光源和相机在不同方位和倾角下Q分量的偏振对比度，以及可见光谱内的四个成像波段，确定了基于偏振成像的目标检测系统的最佳配置，并对其进行了验证。

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Sensitivity study of a polarization imaging-based target detection system

Polarization detection has become a useful complement to traditional optical detection techniques because of its robustness to ambient disturbances. However the uncertainties of sensitive factors such as observation geometry and imaging band limit the practical use of polarization imaging in target detection. To study its sensitivity, two target detection experiments of stealth and camouflage tank models under sand and grass background are conducted. Results show that, the Q component calculated by the differential operation of 0° and 90° polarized images provides the largest polarization contrast between target and background than other components. Finally the optimal configuration of polarization imaging-based target detection system is determined and verified by measuring polarization contrast of Q component under different azimuth and inclination of light source and camera, as well as four imaging bands within visible spectrum.

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2017 13th IEEE International Conference on Electronic Measurement & Instruments (ICEMI)

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