数字图像相关技术中插值偏差的理论估计

数字图像相关测量的普及提出了建立散斑质量评价体系要求,即发展针对不同的数字散斑图能够评估测量精度的标准方法.其中,数字图像相关计算中插值误差引起亚像素位移系统偏差(插值偏差)的估计是评价散斑质量的重要参数,然而至今插值偏差与散斑图结构及其插值方法之间的深层机制仍然不明,而且缺乏快速有效的手段估计插值偏差的量级.基于傅里叶方法获得了插值偏差的解析表达式.在满足采样定理的情况下,对其简化得到了插值偏差的带限近似形式和正弦近似形式.插值偏差的正弦近似形式解释了插值偏差随亚像素平移呈正弦形式变化的现象.基于插值偏差的正弦近似公式,提出了决定插值算法用于相关匹配优劣的插值偏差核概念,它表征了插值算法对散斑图特定频率的偏差响应,插值偏差是由插值偏差核与图像功率谱乘积的积分决定的.基于理论分析,提出了一种通过散斑频谱和插值偏差核估计插值偏差的简便有效算法,较之于传统的散斑图平移方法有明显的速度优势.分析了模板大小对估计精度的影响,并通过模拟进行了验证.解释了插值偏差产生的深层机理,解决了长久以来插值偏差难以快速估计的问题.不仅可以用于插值偏差估计,也可以用于插值算法优化,滤波模板选取等问题.对建立散斑质量评价体系,从而制作方便用户的水转印标准散斑也有推动作用.

光绘:自由开源的数字散斑图像生成和评价软件

生成数字散斑图像以及对应的变形图像是数字图像相关研究的基础,然而至今仍然缺乏功能齐全、操作简单、界面友好的专业散斑生成和分析软件;研究者需要自行实现相关算法,不仅费时耗力,也增加了出错的可能性。本文发布了一款自由开源的数字散斑图像生成和评价软件:《光绘》。该软件具有散斑图生成、变形图生成、散斑质量评价和散斑图案推荐等功能:可以生成椭圆、多边形和高斯散斑;可以渲染平移、拉伸/压缩、旋转、正弦、高斯和剪切带等变形模式的变形图;可以计算散斑占空比、散斑尺寸、系统误差和随机误差等关键散斑质量评价参数;可以根据工况生成矢量格式的推荐散斑图案。本文提出向后映射初值快速估计算法和散斑图预渲染技术实现了变形图的实时渲染显示,并使用积分图像技术大幅提升了灰度梯度平方和的计算效率。该软件不仅可用于数字图像相关的学术研究和工程应用,也可服务于实验力学的教学工作,具有广阔的应用前景。

Single-event-camera-based 3D trajectory measurement method for high-speed moving targets

High-speed target three-dimensional[3D]trajectory and velocity measurement methods have important uses in many fields,including explosive debris and rotating specimen trajectory tracking.The conventional approach uses a binocular system with two high-speed cameras to capture the target’s 3D motion information.Hardware cost for the conventional approach is high,and accurately triggering several high-speed cameras is difficult.Event-based cameras have recently received considerable attention due to advantages in dynamic range,temporal resolution,and power consumption.To address problems of camera synchronization difficulties,data redundancy,and motion blur in high-speed target 3D trajectory measurement,this Letter proposes a 3D trajectory measurement method based on a single-event camera and a four-mirror adaptor.The 3D trajectory and velocity of a particle flight process and a marker on a rotating disc were measured with the proposed method,and the results show that the proposed method can monitor the operational state of high-speed flying and rotating objects at a very low hardware cost.