基于图像特征的收获前籽棉品级聚类融合分析

作物学报 ›› 2007, Vol. 33 ›› Issue (07): 1162-1167.

基于图像特征的收获前籽棉品级聚类融合分析

王玲¹;姬长英^1,*;陈兵林²;刘善军³

1南京农业大学工学院, 江苏南京210031; 2 南京农业大学农业部作物生长调控重点开放实验室, 江苏南京 210095; 3 江西农业大学农学院,江西南昌 330045

收稿日期:2006-09-04 修回日期:1900-01-01 出版日期:2007-07-12 网络出版日期:2007-07-12
通讯作者: 姬长英

Clustering Fusion for Preharvest Cotton Grades Based on Image Features

WANG Ling¹,JI Chang-Ying^1*,CHEN Bing-Lin²,LIU Shan-Jun³

1 College of Engineering, Nanjing Agricultural University, Nanjing 210031, Jiangsu; 2 Key Laboratory of Crop Regulation, Ministry of Agriculture, Nanjing Agricultural University , Nanjing 210095, Jiangsu; 3 College of Agronomy, Jiangxi Agricultural University , Nanchang 330045, Jiangxi, China

Received:2006-09-04 Revised:1900-01-01 Published:2007-07-12 Published online:2007-07-12
Contact: JI Chang-Ying

摘要/Abstract

摘要：

为客观评价收获前籽棉品级，依据籽棉品级国家标准，基于机器视觉在3个颜色空间中选取棉棉瓣大小、色泽特征用K-均值、竞争学习网络方法对7个品级的样本进行聚类融合分析。结果表明，亮度修正后特征之间极显著相关，Hunter颜色空间较好。肉眼对第1、2、7品级的识别率为73%~100%，3~6品级为26%~46%，总计47.7%；聚类融合对各品级的识别率为65%~100%，总计78.6%。聚类融合方法基于人类的先验知识，在更宽的视觉范围内更均衡所有特征，可克服个体聚类器的过度训练，能够客观地识别收获前籽棉品级，提高其采摘、收购质量。

关键词: 籽棉品级, 机器视觉, 图像特征, 聚类融合, 识别率

Abstract:

In order to assess preharvest cotton grades, according to Chinese government grading standard, clustering fusion was performed based on machine vision technologies by using K-means and competitive learning network to grade cotton quality with 7 categories renewedly based on their size, white, impurity and yellow in Ohta, HIS, and Hunter Color Spaces. Correlation analysis showed that the Peason’s correlations among image features were significant at the 0.01 probability level by adjusting image intensity and Hunter Color Space to an approximate optimum; clustering by human eyes did not consider all image features uniformly with fitting coefficients of quadratic polynomial of 0.55–0.98 (0.88, 0.94, 0.98, 0.55) between cluster center of image features and grade value of cotton quality; individual clustering by K-means and competitive learning network also did not consider all image features uniformly with fitting coefficients of 0.32–0.74 (0.74, 0.63, 0.70, 0.32) and 0.39–0.94 (0.85, 0.39, 0.94, 0.84), respectively; and their clustering fusion considered all image features uniformly with fitting coefficients of 0.71–0.99(0.89, 0.71, 0.99, 0.83). Bayes quadratic discriminants analysis for cotton graded showed that clustering by human eyes recognized the 1st, 2nd, 7th grades with accuracies of 73%–100%, the grades 3–6 with accuracies of 26%–46%, and total accuracy of 47.7%; accordingly, clustering by K-means recognized each grade with accuracies of 93%–100%, and total accuracy of 96%; clustering by competitive learning network recognized each grade with accuracies of 79%–95%, and total accuracy of 86%; clustering fusion recognized each grade with accuracies of 65%–100%, and total accuracy of 78.6%. On the whole, the average quality grade of clusering fusion was 4.33 while that of clustering by human eyes was 4.57, and the specimens with large recognization difference between the two methods were less than 1/3 of the total. Compared with by human eyes, clustering fusion can use each image feature more adequately and uniformly with the wider range of vision based on human’s previous knowledge, and overcome the over-training of individual clustering, further, grade preharvest cottons objectively to improve high-quality cottons to be purchased, and this method can be generalized effectively to meet different environments.

Key words: Cotton grade, Machine vision, Image features, Cluster fusion, Accuracy

王玲;姬长英;陈兵林;刘善军. 基于图像特征的收获前籽棉品级聚类融合分析[J]. 作物学报, 2007, 33(07): 1162-1167.

WANG Ling;JI Chang-Ying;CHEN Bing-Lin;LIU Shan-Jun. Clustering Fusion for Preharvest Cotton Grades Based on Image Features[J]. Acta Agron Sin, 2007, 33(07): 1162-1167.

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