喷雾剂叶片液滴大小分布评价中的图像处理技术

COMSIG 88@m_Southern African Conference on Communications and Signal Processing. Proceedings Pub Date : 1988-06-24 DOI:10.1109/COMSIG.1988.49313

J. Beukman

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引用次数: 0

摘要

对四种图像分割技术进行了评估，以确定用于植物病虫害防治的化学品应用后气溶胶液滴对作物叶片的覆盖。图像分析问题包括有效地确定喷雾叶片上液滴的数量和液滴的大小分布。使用安装在显微镜上的标准CCD相机分析喷洒叶片的图像。整个图像被数字化成512条扫描线，每条扫描线由512个像素组成。每个像素根据亮度灰度分配一个介于0到128之间的整数值。使用不同的阈值分割技术对图像进行分割。比较的四种方法是:T. Pun(1981)的熵值法;W.H. Tsai(1985)的矩保持方法;A. Brink和G. De Jager(1987)的最大相关法;最小差分法。这些方法的有效性被评价为它们在表示可用于确定正确液滴区域的双层图像方面的准确性。推荐最大相关法作为四种方法中的最佳方法。

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Image processing techniques in the evaluation of droplet size distribution on sprayed leaves

Four image segmentation techniques are assessed for use in determining the coverage of crop leaves by aerosol droplets after the application of chemicals for plant disease and pest control. The image analysis problem consists of effectively determining the number of droplets as well as the droplet size distribution on the sprayed leaves. Images of sprayed leaves are analyzed using a standard CCD camera mounted on a microscope. The entire image is digitized into 512 scan lines, each consisting of 512 pixels. Each pixel is assigned an integer value between 0 and 128 based on a brightness gray scale. Segmentation of the image is done using different thresholding techniques. The four methods compared are: the entropy method of T. Pun (1981); the moment preserving method of W.H. Tsai (1985); the maximum correlation method of A. Brink and G. De Jager (1987); and the minimum difference method. The usefulness of these methods are evaluated as to their accuracy in representing a bilevel image which can be used to determine the correct droplet areas. The maximum correlation method is recommended as the best of the four methods.<>

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COMSIG 88@m_Southern African Conference on Communications and Signal Processing. Proceedings

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