A method for repair of defects in range data observed with a laser range scanner

机译：一种用激光测距仪观察到的测距数据中的缺陷的修复方法

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摘要

Some types of laser range scanner can measure both range data and color texture data simultaneously from the same viewpoint, and are often used to acquire 3D structure of outdoor scenery. However, for outdoor scenery, unfortunately a laser range scanner cannot give us perfect range information about the target objects such as buildings, and various factors incur critical defects of range data. We present a defect detection method based on region segmentation using observed range and color data, and employ a nonlinear PDE (Partial Differential Equation)-based method to repair detected defect regions of range data. As to the defect detection, performing range-and-color segmentation, we divide observed data into several regions that correspond to buildings, trees, the sky, the ground, persons, street furniture, etc. Using the segmentation results, we extract occlusion regions of buildings as defects regions. Once the defect regions are extracted, 3D position data or range data will be repaired from the observed data in their neighborhoods. For that purpose, we adapt the digital inpainting algorithm, originally developed for the color image repair problem, for this 3D range data repair problem. This algorithm is formulated as the nonlinear time-evolution procedure based on the geometrical nonlinear PDE.

机译：某些类型的激光测距仪可以从相同的角度同时测量距离数据和颜色纹理数据，并且经常用于获取室外风景的3D结构。但是，对于室外风景，不幸的是，激光测距仪无法为我们提供有关目标物体（如建筑物）的理想测距信息，并且各种因素都会导致测距数据的严重缺陷。我们提出了一种使用观察到的距离和颜色数据进行基于区域分割的缺陷检测方法，并采用基于非线性PDE（偏微分方程）的方法来修复检测到的距离数据缺陷区域。对于缺陷检测，执行范围和颜色分割，我们将观察到的数据划分为与建筑物，树木，天空，地面，人，街道家具等相对应的几个区域。使用分割结果，我们提取遮挡区域。建筑物作为缺陷区域。一旦提取出缺陷区域，将从附近的观测数据中修复3D位置数据或范围数据。为此，我们针对此3D范围数据修复问题采用了最初针对彩色图像修复问题开发的数字修复算法。该算法被公式化为基于几何非线性PDE的非线性时间演化过程。

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来源
《Conference on Image Processing: Algorithms and Systems II Jan 21-23, 2003 Santa Clara, California, USA》|2003年|p.363-374|共12页
会议地点 Santa Clara CA(US)
作者
Takahiro Saito; Takashi Komatsu; Shin-ichi Sunaga;
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作者单位

Department of Electrical, Electronic and Information Engineering, Kanagawa University, Yokohama, Japan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
range image; range-and-color segmentation; region competition; defect detection; defect repair; digital inpainting; nonlinear PDE;

机译：距离图像;色域分割;区域竞争;缺陷检测;缺陷修复;数字修复;非线性PDE;

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2. Detection of traversable region around a mobile robot by computing terrain unevenness from the range data of a 3D laser scanner [J] . Satish Kumar Reddy, Prabir K. Pal International journal of intelligent unmanned systems . 2016,第2期

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3. Mobile Laser Scanner data for automatic surface detection based on line arrangement [J] . Cabo C., Cortes S. Garcia, Ordonez C. Automation in construction . 2015,第OCTa期

机译：移动激光扫描仪数据，用于基于线条排列的自动表面检测
4. A method for repair of defects in range data observed with a laser range scanner [C] . Takahiro Saito, Takashi Komatsu, Shin-ichi Sunaga, Society of Photo-Optical Instrumentation Engineers Conference on Image Processing:Algorithms and Systems . 2003

机译：用激光范围扫描仪观察范围数据的缺陷修复缺陷的方法
5. A three-dimensional laser range scanner based on the self-mixing effect in a laser diode. [D] . Gagnon, Eric. 1997

机译：一种基于激光二极管中自混合效应的三维激光测距仪。
6. Cortical Shift Tracking Using a Laser Range Scanner and Deformable Registration Methods [O] . Tuhin K. Sinha, Valerie Duay, Benoit M. Dawant, -1

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7. : "This paper deals with the functionality of the flaked stone assemblages from several Neolithic sites of the NE of the Iberian Peninsula. The chronological framework ranges from the mid-6th to the mid-4th millennium cal. BCE, which corresponds to the Early and Middle Neolithic. This long period ranges from the arrival of the first farming communities in the Iberian Peninsula, around 5600-5500 cal. BCE, to 3600-3500 cal. BCE, two millennia later, when Neolithic communities had stably occupied most of the available territory, from the mountainous areas of the Pyrenees to the coastal areas of the Mediterranean.In this context, the NE of the Iberian Peninsula is one of the areas where a major number of use-wear analyses have been carried out, especially for what concerns the Neolithic period. This is mainly due to the interest shown by the directors of the excavations and by the Spanish use-wear specialists as well; both participated and cooperated in order to enlarge the number of contexts studied, making the NE of the Iberian Peninsula one of the areas of Europe with the largest number of ‘functional studies’. As a result, today we have a reliable picture of the type of lithic tools used by the first farming groups, how they were used, and which needs they were satisfying.The methodology employed for this type of analysis is today broadly shared by most use-wear specialists. A stereoscopic microscope is used together with a reflected-light microscope for the analysis of the archaeological specimens. Afterwards, the observed use-wear traces are compared with the traces from experimental tools. This study primarily made use of the tools preserved at the ‘Traceoteque’ of the Institución Milà y Fontanals of the CSIC of Barcelona.This paper presents the results obtained for the different types of analysed sites and the relative lithic assemblages. In this way, tools from different contexts are compared: open-air sites, caves and rock-shelters, pit-sites, burials, and mining sites. Such a diversity of contexts allowed for the exploration of the existence of recurrences and differences in the functionality of the lithic tools from one site to another. The results obtained have also provided information on some aspects related to the economic processes carried out at the different sites, caves, rock-shelters and open-air contexts. It has been possible to gain fresh data on the types of tasks carried out and their relative importance for each site, their relation with the geographical and environmental context and the natural resources available there. In addition, analysing tools recovered from burials – mainly individual inhumations – provided information on the relationships between the buried individuals and the working tools, in particular exploring the relationships between sex and age patterns and the types of tools deposited as goods.In conclusion, use-wear analysis allowed for the exploration of a variety of issues; from technical aspects related to the production and management of the lithic resources to social aspects related to the subsistence activities and the individuals that carried them out." [O] . Gibaja Bao, Juan Francisco, Mazzucco, Niccolo 2015

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8. Method for Calculating the Electronic Structure Induced by Short-Ranged Defects in Semiconductors [R] . Singh, J., Madhukar, A. 1982

机译：半导体短程缺陷引起的电子结构计算方法

A method for repair of defects in range data observed with a laser range scanner

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