基于相位标靶的光学坐标测量方法

提出一种基于相位标靶的光学坐标测量方法,与有3个以上的标记点的辅助测量棒(传统标靶)相比较,由于相位标靶特征点数量的大量增多以及基于相位计算的精确的特征点的提取,使得用这种标靶进行测量时,其测最结果更为准确和可靠.在计算机屏幕上产生二维正弦条纹,并以此作为校准靶进行摄像机标定.设计制作的相位标靶由小型特征图象屏和测棒组成,采用相位测量技术及条纹处理方法计算特征图象屏各点的相位和面内坐标,进而计算测棒上测点的三维坐标.将该相位标靶用于光学坐标测量,提出了标靶移动时坐标变换的计算公式和移动距离的计算方法,分析了测量误差的成因.实验得到了准确的光学坐标测量结果,证明了该方法的有效性.     

基于围岩受力影响的小净距隧道开挖方法优化

为了确定某小净距隧道适宜的开挖方法,利用有限元软件对全断面法、台阶法和单侧壁导坑法进行模拟,分析不同开挖方法引起的围岩应力云图,并重点对不同的开挖方法引起先行洞围岩及中夹岩柱的受力变化进行对比。结果表明:隧道开挖后在两洞仰拱部位出现拉应力集中区,两隧道之间最近的中夹岩柱是受力最为显著的部位,不同的开挖方法在周边围岩中产生的应力大小及变化趋势也存在差异,全断面开挖方法对先行洞周边围岩影响较小,台阶法的施工在两洞之间引起的应力较小。由此确定该小净距隧道先行洞采用全断面法,后洞采用台阶法进行开挖,通过现场实施,证明方法可行。     

利用频闪结构光测量旋转叶片的三维面形

在对快速甚至高速运动物体进行研究时,需要对运动物体各个时刻的三维面形和形变量进行数字化描述。提出了一种利用频闪光作为结构照明光源,基于傅里叶变换轮廓术对旋转叶片每个时刻的三维面形和变形量进行动态测量的光学方法。使用自行设计的同步控制单元对风扇叶片旋转位置进行检测,用该检测信号同步驱动频闪结构光源的发光和图像采集系统“冻结”记录下旋转叶片表面变形条纹的瞬时图像,再运用傅里叶变换轮廓术计算出每一瞬间时刻旋转叶片的三维面形,分析这些三维面形数字化结果可以进一步得到旋转叶片的变形量。通过对家用电风扇的实验,验证了该方法的合理性和可行性。该方法可望在高速运动物体的面形和变形研究上有广泛运用。     

一种无相机标定的立体图像对校正新方法

双目立体视觉是光学被动三维测量的芷要方法。为了快速、准确地寻找对应点,通常要将立体图像对进行校正,消除垂直视差。提出了一种无需标定相机的立体图像对校正方法。该方法从基本矩阵计算初始透视投影、旋转和竖直平移变换矩阵．然后以对应点坐标为基础对这些变换矩阵进行优化计算,从而有效地避免了优化计算的局部最小值,而且不过分依赖基本矩阵的计算精度。通过对提出的方法和完全基于基本矩阵的图像校正方法以及无需基本矩阵计算的图像校正方法进行实验比较,结果表明提出的方法图像校正速度快,能有效地消除垂直视差,而产生的图像变形较小。     

水平场景无畸变折反射全景成像系统透镜畸变的消除

采用短焦距透镜设计水平场景无畸变折反射全景成像系统,会使系统更加小型化,然而短焦距透镜的畸变会对系统成像产生影响。为此建立了具有径向畸变的相机模型;根据这一相机模型,研究了采用短焦距摄像头的水平场景无畸变折反射全景成像系统中,透镜畸变对系统成像的影响,结果表明短焦距透镜的畸变会对系统成像产生严重影响;为了消除透镜畸变的影响,对反射镜的设计进行了改进,在反射镜面形微分方程中包含了透镜畸变消除的参量;按新的方法,设计了一套由短焦距摄像头组成的水平场景无畸变折反射全景成像系统。     

Quantitative analysis of structure and bandgap changes in graphene oxide nanoribbons during thermal annealing

Graphene oxide nanoribbons (GONRs) are wide bandgap semiconductors that can be reduced to metallic graphene nanoribbons. The transformation of GONRs from their semiconductive to the metallic state by annealing has attracted significant interest due to its simplicity. However, the detailed process by which GONRs transform from wide-bandgap semiconductors to semimetals with a near zero bandgap is unclear. As a result, precise control of the bandgap between these two states is not currently achievable. Here, we quantitatively examine the removal of oxygen-containing groups and changes in the bandgap during thermal annealing of GONRs. X-ray photoelectron spectroscopy measurements show the progressive removal of oxygen-containing functional groups. Aberration-corrected scanning transmission electron microscopy reveals that initially small graphene regions in GONRs become large stacked graphitic layers during thermal annealing. These structural and chemical changes are correlated with progressive changes in the electrochemical bandgap, monitored by cyclic voltammetry. These results show that small changes in the thermal annealing temperature result in significant changes to the bandgap and chemical composition of GONRs and provide a straightforward method for tuning the bandgap in oxidized graphene structures.     

Phase-unwrapping algorithm for the measurement of 3D object

The phase unwrapping is a significant and difficult procedure for profilometry based on fringe. A new algorithm based on coded phase is proposed in this paper. It identifies the order of the fringe by projecting fringes with coded phase onto the object and performs fast phase unwrapping. The computer simulation and the experiment are presented to prove the feasibility and validity of the new algorithm.     

3D coordinate measurement based on inverse photogrammetry and fringe analysis

A method based on inverse photogrammetry and fringe analysis is presented for 3D coordinate measurement. Measurement system mainly consists of a micro-camera fixed on one end of a measuring rod, a measuring probe on the other end and a liquid crystal display screen for displaying 2D fringe pattern in the measurement. In the measurement process, the probe contacts the surface of the measured object, and the CCD camera captures the stripes image on displays screen. The coordinates of camera principal point in the world coordinate system may be determined by the phase information carried in the fringe pattern. The coordinate relations between the principal point of the camera and the measuring probe can be determined with a least square optimization technique in camera coordinate system. This method has the advantage of large measurement range, good flexibility, and portable, which is suitable for field measurement. A result of our method is compared with that of the Coordinate Measuring Machine (CMM), which shows that the measurement accuracy of this method can meet accuracy requirement of the field measurement in large dimension.     

Flexible geometrical calibration for fringe-reflection 3D measurement

System geometrical calibration is a challenging task in fringe-reflection 3D measurement because the fringe displayed on the LCD screen does not lie within the camera's field of view. Commonly, a flat mirror with markers can accomplish system geometrical calibration. However, the position of the markers must be precisely located by photogrammetry in advance. In this Letter, we introduce a calibration method by use of a markerless flat mirror. Experiments in phase measuring deflectometry demonstrate that the proposed method is simple and flexible.     

基于自由镜面反射位姿评估的条纹反射摄影测量

在条纹反射摄影测量中,由于产生条纹图形的液晶显示器不直接出现在摄像机的视场范围内,摄像机与液晶显示器之间的位姿标定是条纹反射摄影测量的主要难点。为了简化标定过程,提出了采用平面镜直接对液晶显示器上的条纹反射3次并利用固定摄像机接收反射条纹,通过对摄像机与条纹虚像之间的3次位姿评估,完成摄像机与液晶显示器的位姿标定的方法。在镜面面形测量中,利用两者之间的位姿关系可以将待测点的反射光线和入射光线统一在摄像机坐标系下,完成光线的三角交会,实现镜面面形测量。数值模拟和实验结果表明,此方法简单易行,且精度较高。