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Multi-measuring-point planeness evaluation method based on support vector classification

A technology of support vector classification and support vector machine, which is applied in the direction of measuring devices and instruments, can solve the problems of complex calculation, falling into local optimum, and difficult to guarantee the accuracy of evaluation, so as to improve calculation efficiency, improve accuracy and reduce calculation The effect of data volume

Active Publication Date: 2012-06-20
SOUTH CHINA UNIV OF TECH
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Problems solved by technology

The calculation speed of the least square method is faster, but it is difficult to guarantee the evaluation accuracy by using the least square plane instead of the minimum area plane; the calculation accuracy of the search method is high, but it is easy to fall into a local optimum in the iterative search; the calculation accuracy of the geometric method is High, but it is necessary to obtain the minimum area plane through all enumeration methods, and the calculation is complicated

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  • Multi-measuring-point planeness evaluation method based on support vector classification
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  • Multi-measuring-point planeness evaluation method based on support vector classification

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Embodiment Construction

[0016] In order to make the purpose, technical solutions and advantages of the present invention clearer, the implementation of the present invention will be further described in detail below in conjunction with the accompanying drawings:

[0017] see figure 1 , is a multi-measuring point flatness evaluation method flow chart based on support vector classification, and the method includes the following steps:

[0018] Step 10 samples the points on the surface to be measured, and obtains the three-dimensional coordinates of all measurement points.

[0019] Step 20 calculates the least squares plane corresponding to the measurement point set, and based on the least squares plane, eliminates the measurement points with smaller residual absolute value.

[0020] In step 30, the measurement points with large absolute values ​​are moved equidistantly along the normal direction of the least squares plane in the positive and negative directions to form linearly separable positive and ...

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Abstract

The invention discloses a multi-measuring-point planeness evaluation method based on support vector classification. The method comprises the following steps: sampling points on a tested surface to obtain a three-dimensional coordinate measurement value of each point; calculating a least square surface corresponding to a measurement point set; with the least square surface as a reference, removing measurement points with a small residual absolute value; moving measurement points with a big residual absolute value for the same distance respectively along the positive direction and the negative direction of the normal direction of the least square surface to form a linearly separable positive point set and negative point set; calculating the maximum interval plane of the positive point set and the negative point set with a linearly classified support vector machine method; and calculating a planeness value according to the plane. According to the multiple-measuring-point planeness evaluation method, the calculation data amount in the multiple-measuring-point planeness evaluation can be reduced and the calculation efficiency and the accuracy of an evaluation result are obviously improved.

Description

technical field [0001] The invention relates to a flatness evaluation method, in particular to a multi-measurement point flatness evaluation method based on support vector classification. Background technique [0002] With the development of the national economy and the improvement of advanced manufacturing levels, in modern industrial manufacturing, especially in the fields of precision manufacturing, there are high precision requirements for the geometrical and dimensional accuracy of workpieces and structures. As one of the most common geometric dimensions of industrial products, planes are often used as pressure-bearing planes and reference planes in practical applications. If the flatness of the workpiece exceeds the design requirements, it will lead to uneven force on the pressure bearing surface, which will easily cause local deformation or damage of the pressure bearing surface, or cause the geometric dimensions of the components based on the plane to be out of align...

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Application Information

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IPC IPC(8): G01B21/30
Inventor 刘桂雄姜焰鸣高屹
Owner SOUTH CHINA UNIV OF TECH
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