Triangulation Sensor(三角测量传感器)研究综述
Triangulation Sensor 三角测量传感器 - The projected Laser Line of a triangulation sensor is usually formed by a Powell lens from a point source, which results in a uniformly distributed intensity. [1] Triangulation sensors were mounted vertically and horizontally as well as in front of and behind the tested bearing. [2] The method for non-destructive testing of CFRP prepreg materials combines a laser-triangulation sensor and an infrared camera to monitor both, the geometry and the impregnation of the prepreg material. [3] Such optical systems could be used in various measuring systems in photogrammetry, computer vision, triangulation sensors, fringe projection techniques, surveying, machine vision, etc. [4]三角测量传感器的投影激光线通常由点源的鲍威尔透镜形成,从而产生均匀分布的强度。 [1] 三角测量传感器垂直和水平安装在被测轴承的前后。 [2] CFRP 预浸材料的无损检测方法结合了激光三角测量传感器和红外摄像机来监测预浸材料的几何形状和浸渍情况。 [3] 这种光学系统可用于摄影测量、计算机视觉、三角测量传感器、条纹投影技术、测量、机器视觉等各种测量系统。 [4]
Laser Triangulation Sensor 激光三角测量传感器
The equipment used to validate the experiment is a laser triangulation sensor mounted on a Coordinate Measuring Machine (CMM). [1] The displacement of the platform is measured using an optical laser triangulation sensor. [2] The aim of the research is to analyze the possibility of the development and realization of a common laser triangulation sensor arrangement-based probe for the measurement of slots and bore sides with the help of a mirror attachment. [3] In the paper experimental results of the static characteristics of laser triangulation sensors are presented. [4] Therefore, a novel configuration of laser triangulation sensors that enable multidirectionality and limit shadowing effect has been developed at Fraunhofer IAPT. [5] In this paper, a laser triangulation sensor (LTS) with improved measurement accuracy via integrating a diffraction grating was proved. [6] Once stated the benefits of this material and proposed some machining conditions, an artefact is manufactured and digitized with a non-contact laser triangulation sensor, comparing its results regarding to a widely used metrological reference system. [7] Laser triangulation sensors (LTS) are widely used to acquire depth information in industrial applications. [8] The equipment used to validate the experiment is a laser triangulation sensor mounted on a Coordinate Measuring Machine (CMM). [9] With the help of standardized parameters, this paper aims to compare four different measurement principles, namely AIT’s own single sensor light field camera method, a structured light pattern projector, a laser triangulation sensor, and a stereo camera system, with an approximate field of view of $100\times 100$ mm. [10] The article deals with assessment of the suitability of using a laser triangulation sensor to measure the displacement in vertical axis of a measuring microscope. [11] This research focuses precisely on the analysis of the metrological suitability of a laser line scanner (laser triangulation sensor) on parts manufactured by Selective Laser Melting (SLM). [12] In modern railway systems, laser triangulation sensors have been widely adopted in onboard measuring units to carry out 2-D rail profile measurement due to their robustness and truly noncontact properties. [13] The presented approach uses a real grinding tool topography, which is measured by a 3D laser triangulation sensor in the machine tool. [14] A new technique for displacement measurements using a laser triangulation sensor during impacts were proposed and used for a quantitative analysis and for precision verification of a numerical model results. [15] Therefore, this paper reports a non-contact gear measurement device using two opposing laser triangulation sensors, and the key geometrical models to reconstruct the profile with geometrical error compensation. [16] magnetic field camera scanners, we report on a combined stand-alone scanner for very fast measurements of the magnetic field distribution of flat magnets, magnet assemblies and permanent magnet rotors, together with a measurement of the surface topography using a scanned laser triangulation sensor. [17] In order to tackle above problems, an adaptable robotic system guided by the 3D laser triangulation sensor and six-axis F/T sensor is built in this paper. [18] This paper presents and discusses a method to calibrate a specially built laser triangulation sensor to scan and map the surface of hydraulic turbine blades and to assign 3D coordinates to a dedicated robot to repair, by welding in layers, the damage on blades eroded by cavitation pitting and/or cracks produced by cyclic loading. [19] The removal of this type of fouling is for the first time assessed using a laser triangulation sensor and a camera, to measure changes in the thickness and to visualize structural changes in the fouling in situ. [20]用于验证实验的设备是安装在坐标测量机 (CMM) 上的激光三角测量传感器。 [1] 使用光学激光三角测量传感器测量平台的位移。 [2] 该研究的目的是分析开发和实现基于通用激光三角测量传感器排列的探头的可能性,该探头用于在镜子附件的帮助下测量槽和孔边。 [3] 本文介绍了激光三角测量传感器静态特性的实验结果。 [4] 因此,Fraunhofer IAPT 开发了一种能够实现多方向性和限制阴影效应的新型激光三角测量传感器配置。 [5] 在本文中,证明了一种通过集成衍射光栅提高了测量精度的激光三角测量传感器(LTS)。 [6] 一旦陈述了这种材料的优点并提出了一些加工条件,就会使用非接触式激光三角测量传感器制造和数字化人工制品,并将其结果与广泛使用的计量参考系统进行比较。 [7] 激光三角测量传感器 (LTS) 广泛用于获取工业应用中的深度信息。 [8] 用于验证实验的设备是安装在坐标测量机 (CMM) 上的激光三角测量传感器。 [9] 借助标准化参数,本文旨在比较四种不同的测量原理,即 AIT 自己的单传感器光场相机方法、结构光图案投影仪、激光三角测量传感器和立体相机系统,具有近似视场100 美元乘以 100 美元毫米。 [10] 本文涉及评估使用激光三角测量传感器测量测量显微镜垂直轴位移的适用性。 [11] 这项研究的重点是分析激光线扫描仪(激光三角测量传感器)对选择性激光熔化 (SLM) 制造的零件的计量适用性。 [12] 在现代铁路系统中,激光三角测量传感器由于其坚固性和真正的非接触特性而被广泛应用于车载测量单元进行二维轨道轮廓测量。 [13] 所提出的方法使用真实的磨削工具形貌,由机床中的 3D 激光三角测量传感器测量。 [14] 提出了一种在撞击过程中使用激光三角测量传感器进行位移测量的新技术,并将其用于定量分析和数值模型结果的精度验证。 [15] 因此,本文报告了一种使用两个相对激光三角测量传感器的非接触式齿轮测量装置,以及通过几何误差补偿重建轮廓的关键几何模型。 [16] 磁场相机扫描仪,我们报告了一种组合式独立扫描仪,用于非常快速地测量扁平磁体、磁体组件和永磁转子的磁场分布,以及使用扫描激光三角测量传感器测量表面形貌。 [17] 为解决上述问题,本文构建了以3D激光三角测量传感器和六轴F/T传感器为引导的自适应机器人系统。 [18] 本文介绍并讨论了一种校准专门构建的激光三角测量传感器的方法,以扫描和映射水轮机叶片的表面,并将 3D 坐标分配给专用机器人,通过分层焊接来修复因气蚀而腐蚀的叶片损伤。和/或循环载荷产生的裂缝。 [19] 首次使用激光三角测量传感器和相机评估此类污垢的去除情况,以测量厚度的变化并原位观察污垢的结构变化。 [20]
Line Triangulation Sensor
The measurements have been performed with a laser line triangulation sensor and a UR10e robot. [1] For the purpose of a faster and more extensive surface acquisition, a laser line triangulation sensor is investigated providing 1280 points at a line width of 25 mm with up to 200 lines/s. [2] Hence, current line triangulation sensors, like Flying Triangulation, are far away from being ‘perfect’. [3]使用激光线三角测量传感器和 UR10e 机器人进行了测量。 [1] 为了更快和更广泛的表面采集,我们研究了一种激光线三角测量传感器,它在 25 mm 的线宽处提供 1280 个点,速度高达 200 线/秒。 [2] 因此,目前的线三角测量传感器,如飞行三角测量,远非“完美”。 [3]
3d Triangulation Sensor
The contour is measured by a 3D triangulation sensor whose data is evaluated by an image processing system. [1] The system integrates a RGB-D camera, a 3D triangulation sensor and a carbon dioxide $( CO _{2})$ laser scalpel for computer-assisted laser surgery. [2]轮廓由 3D 三角测量传感器测量,其数据由图像处理系统评估。 [1] 该系统集成了 RGB-D 摄像头、3D 三角测量传感器和二氧化碳 $(CO_{2})$ 激光手术刀,用于计算机辅助激光手术。 [2]
Optical Triangulation Sensor
The system allows for loading force measurement with a deformation strain gauge cell and deformation measurement with an optical triangulation sensor. [1] The system allows for loading force measurement with a strain gauge load cell, the deformation measurement with an optical triangulation sensor and needle deformation measurement with a remote camera. [2]该系统允许使用变形应变计单元测量加载力,并使用光学三角测量传感器进行变形测量。 [1] 该系统允许使用应变仪测力传感器测量加载力,使用光学三角测量传感器进行变形测量,使用远程相机进行针形变形测量。 [2]
triangulation sensor mounted 安装三角测量传感器
The equipment used to validate the experiment is a laser triangulation sensor mounted on a Coordinate Measuring Machine (CMM). [1] The equipment used to validate the experiment is a laser triangulation sensor mounted on a Coordinate Measuring Machine (CMM). [2]用于验证实验的设备是安装在坐标测量机 (CMM) 上的激光三角测量传感器。 [1] 用于验证实验的设备是安装在坐标测量机 (CMM) 上的激光三角测量传感器。 [2]