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Point Cloud Boundary Feature Recognition Method Constrained by Local Sample Projection Contour

A local sample and boundary feature technology, applied in image analysis, image enhancement, instruments, etc., can solve problems such as large amount of calculation, complex creation, large curvature difference, etc., and achieve the effect of reducing dimensionality and improving recognition accuracy

Inactive Publication Date: 2019-07-12
SHANDONG UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this algorithm needs to extract the k-nearest neighbor points of the point and calculate the included angle, which requires a large amount of calculation. At the same time, the creation of R*-tree is very complicated, which increases the time complexity of the algorithm.
In "Segmentation of awrap-around modeling using an active contour" (Computer-Aided Design, 1997, 29(4): 299-320), Milroy et al. used a quadratic polynomial surface in the local coordinate system to estimate the curvature value of the point cloud data and find the curvature extreme point , to extract the boundary points, although the curvature extremum method can extract high-precision boundary feature points for irregular point cloud data, but this method needs to calculate the curvature value of each data point, the calculation process is very complicated, and The resulting curvature value is directly affected by the method of its estimation, and may sometimes be quite different from the real curvature

Method used

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  • Point Cloud Boundary Feature Recognition Method Constrained by Local Sample Projection Contour
  • Point Cloud Boundary Feature Recognition Method Constrained by Local Sample Projection Contour
  • Point Cloud Boundary Feature Recognition Method Constrained by Local Sample Projection Contour

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Experimental program
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Embodiment 1

[0026] Embodiment one: Figure 6 is a schematic diagram of the boundary feature recognition process of the phone model, such as Figure 6 As shown in -a, the boundary feature extraction experiment is performed on the sampling data of a phone model, and the two-dimensional point set of the sample data is obtained by projecting the sample data ( Figure 6 -b), based on the proposed convex point and concave point recognition method, the convex boundary and concave boundary features are extracted from the two-dimensional point set ( Figure 6 -c, 6-d), the complete two-dimensional boundary features are as follows Figure 6 As shown in -e, according to the projection correspondence, the 3D boundary features of the phone model can be further obtained, such as Figure 6 As shown in -f, it can be seen from the figure that the outer boundary of the phone model and the features of the buttons and screen boundaries are effectively recognized.

Embodiment 2

[0027]Embodiment 2: In order to verify the effectiveness of the present invention, the boundary feature extraction test is further performed on the other two models part and fish, as Figure 7 As shown, it can be seen from the figure that the two-dimensional boundaries of the part and fish models and their corresponding three-dimensional boundary features are effectively recognized, thus verifying the applicability of the present invention in the process of extracting boundary features.

[0028] It can be concluded from the embodiments that the present invention can identify the boundary features of the point cloud with a relatively small calculation cost, and the comprehensive performance in terms of the efficiency and accuracy of boundary feature recognition is better than that of the prior art.

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Abstract

The invention provides a method for identifying the boundary feature of a sampling point set on a physical surface based on the contour shape of a local sample projection, which belongs to the field of digital design and manufacturing, and is characterized in that: normal estimation is performed on each sample point in the sampling point set and all Add a mark to the sample point, through which it can be distinguished whether the sample point is a boundary sample point state or a non-boundary sample point state, and the marks of all sample points are initially set to the boundary sample point state; for each sample point in the sampling point set, if its If it is marked as a boundary sample point, then construct a local sample projection contour along the normal direction of the sample point, and verify whether the projection point along the normal direction of the sample point falls into the contour set formed by the concave and convex points of the local sample projection, if If it does not fall into the set, the mark of the sample point is modified to be a non-boundary point state, and the subset formed by the sample points marked as the state of the boundary sample point is output. The invention can quickly identify the boundary sample points of the object surface sampling point set.

Description

technical field [0001] The invention provides a boundary feature recognition method of a sampling point set on a physical surface based on the contour shape of a local sample projection, which can be used to identify the boundary features of sampling data on the surface of a physical object, and belongs to the field of digital design and manufacturing. Background technique [0002] The boundary characteristics of the sample point set on the surface of the physical object refer to the set of sample points distributed on the edge of the non-closed point set and the set of edge sample points located in the holes inside the point set. Since the sampling data on the surface of the physical object is a set of scattered points, there is no topological information among the points in the point set, so the identification of the boundary features of the sampling data is essentially to judge the sample through the geometric information of the sample points in the point set and their nei...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06T3/00G06T7/13G06T7/60
CPCG06T3/0031G06T2207/10004
Inventor 孙殿柱郭洪帅李延瑞
Owner SHANDONG UNIV OF TECH
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