GENERAL DIGITAL PICTURE PROCESSING AND TEXTURE ANALYSIS FOR PHOTOELASTICITY

Applied Mathematics and Mechanics (English Edition) ›› 1986, Vol. 7 ›› Issue (4): 337-343.

GENERAL DIGITAL PICTURE PROCESSING AND TEXTURE ANALYSIS FOR PHOTOELASTICITY

欧阳鬯, 叶宁

收稿日期:1985-04-30 出版日期:1986-04-18 发布日期:1986-04-18
基金资助:
This paper is supported by the science funds of the Academia Sinica.

GENERAL DIGITAL PICTURE PROCESSING AND TEXTURE ANALYSIS FOR PHOTOELASTICITY

Ouyang Chang, Ye Ning

Department of Applied Mechanics, Fudan University, Shanghai

Received:1985-04-30 Online:1986-04-18 Published:1986-04-18
Supported by:
This paper is supported by the science funds of the Academia Sinica.

摘要/Abstract

摘要： In this paper, a general digital picture processing and texture analysis for photoelasticity is developed. O vercoming some defects of references [2] and [3], it presents an effective method to analyse fringe patterns of the photoelasticity. By means of the trigonometric function relationship between the light intensity land the image fringe order N, the equations of the fringe order N on brightness Z are deduced, and the mechanical parameters are thus obtained. We established a system of sigital picture processing and texture analysis for photoelasticity, which is called O YC-I system. Finally, this system is checked with an example. It is found that the differences between measured results and the theoretical values are within 2.3 percent.

关键词: nutural convection equation, mixed element method, finite difference scheme

Abstract: In this paper, a general digital picture processing and texture analysis for photoelasticity is developed. O vercoming some defects of references [2] and [3], it presents an effective method to analyse fringe patterns of the photoelasticity. By means of the trigonometric function relationship between the light intensity land the image fringe order N, the equations of the fringe order N on brightness Z are deduced, and the mechanical parameters are thus obtained. We established a system of sigital picture processing and texture analysis for photoelasticity, which is called O YC-I system. Finally, this system is checked with an example. It is found that the differences between measured results and the theoretical values are within 2.3 percent.

Key words: nutural convection equation, mixed element method, finite difference scheme

欧阳鬯;叶宁. GENERAL DIGITAL PICTURE PROCESSING AND TEXTURE ANALYSIS FOR PHOTOELASTICITY[J]. Applied Mathematics and Mechanics (English Edition), 1986, 7(4): 337-343.

Ouyang Chang;Ye Ning. GENERAL DIGITAL PICTURE PROCESSING AND TEXTURE ANALYSIS FOR PHOTOELASTICITY[J]. Applied Mathematics and Mechanics (English Edition), 1986, 7(4): 337-343.

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GENERAL DIGITAL PICTURE PROCESSING AND TEXTURE ANALYSIS FOR PHOTOELASTICITY

GENERAL DIGITAL PICTURE PROCESSING AND TEXTURE ANALYSIS FOR PHOTOELASTICITY

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