农业工程学报2017,Vol.33Issue(11):165-170,6.DOI:10.11975/j.issn.1002-6819.2017.11.021
基于图像特征点粒子群聚类算法的麦田作物行检测
Crop rows detection based on image characteristic point and particle swarm optimization-clustering algorithm
摘要
Abstract
In order to extract the crop rows of wheat quickly and accurately, a new method of wheat crop row detection was proposed based on particle swarm optimization (PSO) - clustering. The first step is image segmentation. The purpose of image segmentation was to separate the green plants from background, and it required the following 2 steps: Firstly, gray-level transformation, which could be done in RGB color space. In this paper, the color excess green index 2G-R-B was used;Secondly, image binarization was conducted. Among the global thresholding techniques for image binarization, Otsu method is one of the best threshold ways. So, this paper used Otsu algorithm to binarize the above obtained gray-level image. In order to reduce the burden of the next work, it was essential to extract a number of feature points indicating the crop rows. The specific algorithm can be divided into 2 steps: Firstly, get the left and right boundary points of each crop row. Secondly, extract the midpoint between left and right boundary points. After the original crop image was processed by the above steps, we got the feature points of the crop rows. According to the characteristics that the distances from the feature points around the crop row centreline to this straight line were all smaller than a certain distance threshold, we used the clustering method based on PSO to determine the real center points indicating crop rows. In the crop rows detection algorithm based on the PSO-clustering, the line in the data space composed of the feature points was considered as a particle. Finally, the centrelines were detected by fitting a straight line with the least square method. In order to prove the superiority of the algorithm, we compared the algorithm with standard Hough transform and the algorithm proposed in another literature. We tested the performance from the aspects of the detection accuracy and processing time for different images. Here, a total of 350 images have been tested. The number of the wheat images in overwintering stage was 197 and the number of the wheat images in green stage was 153. For the algorithm proposed in this paper, the number of the wheat images in overwintering stage successfully detected was 190 and that in green stage successfully detected was 143. Comparatively speaking, for the algorithm with standard Hough transform, the numbers of the wheat images in overwintering and green stage that were successfully detected were 180 and 100, respectively. For the algorithm proposed in another literature, the numbers were 168 and 93, respectively. Three representative pictures were selected in the experiment, which included the different environment i.e. the lack of crops, soil block, and high density weed. For the 3 images, the identification errors of the proposed algorithm were 0.6310°, 0.7735° and 1.0657°, respectively. The identification errors of the standard Hough were 0.9683°, 2.7158° and 4.4633°, respectively. The identification errors of the algorithm proposed in another literature were 2.2605°, 1.5319° and 5.8291°, respectively. Therefore, compared with the other 2 algorithms, the proposed algorithm has the advantages of high real time and high accuracy, which can meet the practical requirements of field operation of agricultural robots.关键词
图像处理/算法/聚类/作物行检测/粒子群优化/最小二乘法Key words
image processing/algorithms/clustering/crop rows detection/particle swarm optimization/least squares分类
信息技术与安全科学引用本文复制引用
姜国权,杨小亚,王志衡,刘红敏..基于图像特征点粒子群聚类算法的麦田作物行检测[J].农业工程学报,2017,33(11):165-170,6.基金项目
国家自然科学基金资助项目(61472119,61572173,61472373,61401150) (61472119,61572173,61472373,61401150)
河南省科技攻关项目(172102110032) (172102110032)
河南省教育厅高等学校重点项目(17A210014) (17A210014)
河南省高等学校矿山信息化重点学科开放实验室开放基金资助(KY2012-09) (KY2012-09)
河南省高校基本科研业务费专项资金资助 ()
计算机视觉与图像处理创新团队(T2014-3) (T2014-3)
