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浙江大学学报(工学版)
JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE)
    
Plant species identification method based on flower feature coding classification
BAI Fan, ZHENG Hui feng, SHEN Ping ping, WANG Cheng, YU Sang sang
Institute of Precision Measurement and Control, China Jiliang University, Hangzhou 310018, China
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Abstract  
An approximate identification method of plant species based on the encoding of the flowers’feature was proposed. Images of the flowers were segmented using maximum entropy threshold combined with GrabCut algorithm in order to extract and select the color, contour, texture and spatial structure satisfying good human visual features and classification performances. The coding classification system was built to narrow the range of recognition according to the concept of maximum spacing classification, binary node models and classification network structure. The color histogram, contour histogram and spatial gradient co occurrence matrix were compared to the fitting operation to calculate the similarity degree of each class object and the testing target. The approximate identification was completed when the class object with the highest similarity degree was found. The method was verified, analyzed and improved through experiments. Experimental results show that the method has the advantages of high recognition speed, accuracy and good extensibility.

Published: 29 October 2015
CLC:  TP 391  
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BAI Fan, ZHENG Hui feng, SHEN Ping ping, WANG Cheng, YU Sang sang. Plant species identification method based on flower feature coding classification. JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE), 2015, 49(10): 1902-1908.

URL:

http://www.zjujournals.com/eng/10.3785/j.issn.1008 973X.2015.10.011     OR     http://www.zjujournals.com/eng/Y2015/V49/I10/1902


基于花朵特征编码归类的植物种类识别方法

提出基于花朵特征编码分类的植物种类近似识别方法.运用以最大熵阈值为主,GrabCut算法为辅的体系进行花朵图像分割,提取并筛选出符合人眼视觉特性且分类性能良好的颜色、轮廓、纹理、空间结构等特征.依照最大间隔分类理念、节点二分模式和分类网络结构,搭建编码分类体系以缩小识别范围.将颜色直方图、轮廓直方图和梯度空间共生矩阵相交进行相似比对拟合运算,得到库中各已知类别对象与待测目标的相似程度,列出最近似的对象,完成近似识别.对该方法进行实验验证、分析和完善,实验结果表明,该方法具备识别速度快、准确度高、识别目标扩展性能好等优点.
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