Streak tube imaging lidar (STIL) has attracted considerable attention in recent years because of its high range accuracy, high sensitivity, and wide field-of-view (FOV). This technique has been widely applied for target identification and DEM mapping.
The group led by Prof. Deying Chen, from Harbin Institute of Technology, investigates the effect of time bin size on the range accuracy of the STIL system and improves the accuracy of 3D depth images by using an optimal time bin size. The details of the study are reported in Chinese Optics Letters, Vol. 14, No. 2, 2016 (G.C. Ye et al., Effect of time bin size on accuracy of streak tube imaging LIDAR).
The STIL system employed a streak tube camera as the detector, which separates the signal captured along the vertical direction, according to the different arrived times of the target return. Then, a 3D image can be reconstructed from multiple pulses by scanning the scene with a 1D laser fan beam. The theoretical analysis shows that the range accuracy can be improved by decreasing the time bin size based on the peak detection algorithm.
In this study, a modified analytical estimate of the STIL system played a significant role in the analysis of the range accuracy and finer millimeter-scale 3D images were obtained using the improved STIL system. 3D images with different time bin sizes were compared, and the relationship between the range accuracy and the time bin size was established. The finest range accuracy of 3 mm has been obtained using a small time bin size of 0.07 ns. This indicates that a smaller time bin size can help improving the range accuracy.
Prof. Rongwei Fan believes that it is noteworthy that the smaller time bin size will result in a narrower range gate. Therefore, an adequate range gate for the required target should be guaranteed before choosing the optimal time bin size. In the further work, the group will perform research on how to determine the best time bin size when the depth of field is known, and will carry out an outdoor experiment to illustrate the theory at a long stand-off distance.
哈尔滨工业大学的陈德应教授课题组通过改变时隙尺寸进一步降低STIL的测距误差，并建立时隙尺寸与测距误差之间的理论关系模型。相关研究结果发表在Chinese Optics Letters 2016 年第2 期上 (G.C. Ye et al., Effect of time bin size on accuracy of streak tube imaging LIDAR)。
该研究提出了一种改进的条纹管成像激光雷达误差评价模型，基于该模型改进后的STIL系统能够实现毫米级的距离成像。通过实验对比了不同时隙尺寸参数下STIL的三维成像结果，并且建立了二者之间的关系模型。在最优时隙尺寸为0.07 ns情况下获得了最佳距离误差为3 mm的距离像。研究结果表明，减小时隙尺寸可以降低距离误差。