基于图像处理的农药在线混合均匀性分析
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摘要
农药喷洒是进行病虫防治,提高农业产量的有效途径,但由于施药技术落后,农药浪费以及环境污染问题日趋严重,为了提高农药使用效率,农药在线混合均匀性值得研究。由于水和含有荧光物质的农药亮度差异比较明显,利用图像处理方法研究农药的在线混合均匀性。搭建农药在线混合图像采集系统,通过差值预处理并选择出面积百分比最大的图像,使用了轴向和径向像素分析方法和均方根误差分析方法对混合均匀性进行定量分析。在此基础上基于Matlab编写了数据分析软件,并对三种不同性质农药的混合均匀性进行分析,其中水溶性农药均方根误差百分比(β)为13. 389%,高于乳化性农药(9. 280%)和脂溶性农药(9.996%),说明相对于乳化性和脂溶性农药,水溶性农药在线混合均匀性较好。且通过对浓度一定但流量不同的7组试验利用该方法对脂溶性农药流体图像进行了数据处理,发现当流量从1 390 m L/min减小到880m L/min时,均方根误差百分比(β)从11.029%减小到8.737%,均匀性逐渐变差。结果表明,利用图像处理方法研究农药在线混合均匀性是可行的,可以方便、直观地分析混药器结构及性能参数对混合效果的影响,为农药在线混合的图像处理方法及混合效果定量分析奠定基础。
Pesticide spraying is an effective way to control pest damage and increase crop yields. Because of the behindhand pesticide spraying technology,the problems of pesticides wast and environmental pollution are getting worse and worse. In order to improve the use efficiency of pesticide,it is worthwhile to study the mixing uniformity of pesticide online. Because there were remarkable differences between water and pesticides containing fluorescent substance,image processing technology was adopted to analyze the uniformity of pesticide on-line-mixing. In this study,an online mixed image collection system for pesticides was set up. The image with maximum percentage of pesticides area in the ROI( region of interest) was chosen after subtraction preprocessing of all acquired images,then the axial and radial pixel analysis method and RMSE statistic were used to quantify the uniformity index. Additionally,the data analysis software was written by Matlab,and the mixing uniformity of 3 different kinds of pesticide were analyzed. The RMSE percentage( β) of water-soluble pesticides was 13.389%,which was higher than 9.280% of emulsified pesticides and 9. 996% of liposoluble pesticides,indicating that the mixing uniformity of water-soluble pesticides was better than that of emulsified and liposoluble pesticides. Experiments on 7 groups with finit concentration but different quantity of flow were carried out data processing on liposoluble pesticide images. When the flow rate decreased from 1 390 m L/min to 880 m L/min,the RMSE percentage dropped from 11.029% to 8.737%,and uniformity became worse gradually. The results revealed that image processing technology was feasible for analyzing uniformity of pesticide on-line-mixing. It could be easily and intuitively adopted to analyze the influence of chemical mixer structure and performance parameters on mixing effect,thus laying a foundation for pesticide on-linemixing image processing,and quantitative analysis of pesticide on-line-mixing effect.
Pesticide spraying is an effective way to control pest damage and increase crop yields. Because of the behindhand pesticide spraying technology,the problems of pesticides wast and environmental pollution are getting worse and worse. In order to improve the use efficiency of pesticide,it is worthwhile to study the mixing uniformity of pesticide online. Because there were remarkable differences between water and pesticides containing fluorescent substance,image processing technology was adopted to analyze the uniformity of pesticide on-line-mixing. In this study,an online mixed image collection system for pesticides was set up. The image with maximum percentage of pesticides area in the ROI( region of interest) was chosen after subtraction preprocessing of all acquired images,then the axial and radial pixel analysis method and RMSE statistic were used to quantify the uniformity index. Additionally,the data analysis software was written by Matlab,and the mixing uniformity of 3 different kinds of pesticide were analyzed. The RMSE percentage( β) of water-soluble pesticides was 13.389%,which was higher than 9.280% of emulsified pesticides and 9. 996% of liposoluble pesticides,indicating that the mixing uniformity of water-soluble pesticides was better than that of emulsified and liposoluble pesticides. Experiments on 7 groups with finit concentration but different quantity of flow were carried out data processing on liposoluble pesticide images. When the flow rate decreased from 1 390 m L/min to 880 m L/min,the RMSE percentage dropped from 11.029% to 8.737%,and uniformity became worse gradually. The results revealed that image processing technology was feasible for analyzing uniformity of pesticide on-line-mixing. It could be easily and intuitively adopted to analyze the influence of chemical mixer structure and performance parameters on mixing effect,thus laying a foundation for pesticide on-linemixing image processing,and quantitative analysis of pesticide on-line-mixing effect.
引文
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[9]徐幼林.植保机械混药器及其农药在线混合性能研究[D].南京:南京林业大学,博士学位论文,2009.Xu Y L. Study on Mixers for Plant Protection Machinery andChemical In-line-mixing Performances[D]. Nanjing:NanjingForestry University,Master Dissertation,2009.
[10]宋海潮,徐幼林,郑加强,等.脂溶性农药旋动射流混合机理与混药器流场数值模拟[J].农业机械学报,2016,47(9):79-84.Song H C,Xu Y L,Zheng J Q,et al.. Swirling jet mixturemechanism of fat-soluble pesticides and numerical simulation ofmixer field[J]. Trans. Chin. Soc. Agric. Mach.,2016,47(9):79-84.
[11]宋海潮,徐幼林,郑加强,等.脂溶性农药旋动射流混药器结构分析与混合均匀性试验[J].农业工程学报,2016,32(23):86-92.Song H C,Xu Y L,Zheng J Q,et al.. Structural analysis andmixing uniformity experiments of swirling jet mixer for applyingfat-soluble pesticides[J]. Trans. CSAE,2016,32(23):86-92.
[2]张家兴.植物保护发展对策研究[J].植物保护,2001,27(5):36-39.Zhang J X. Research on plant protection and developmentcountermeasures[J]. Plant Protection,2001,27(5):36-39.
[3]郑加强.21世纪农药精确使用方法展望[A].见:中国植物保护学会全国会员代表大会暨21世纪植物保护发展战略学术研讨会论文集[C].北京:中国科学技术出版社,2001.Zheng J Q. Prospects for pesticide precise use in the 21stcentury[A]. In:Proceedings National Association of ChinesePlant Protection Society and 21st Century Symposium on PlantProtection Development Strategy[C]. Beijing:Science andtechnology of China press,2001.
[4] Vondricka J,Hloben P,Lammers P S. Optimization of directnozzle injection system for site-specific herbicide application[A]. In:Proceedings of 2007 ASABE Annual InternationalMeeting[C]. ASABE,2007.
[5] Zhu H P. Reducing metering lag and nonuniformity for injectionsprayers applying highly viscous fluid[D]. Columbus:OhioState University,Doctor Dissertation,1996.
[6] Sudduth K A,Borgelt S C,Hou J. Performance of a chemicalinjection sprayer system[J]. Appl. Engin. Agric.,1995. 11(3):343-348.
[7]徐幼林,郭敬坤,郑加强.农药在线混合均匀度高速摄影分析[J].农业机械学报,2011,42(8):75-79.Xu Y L,Guo J K,Zheng J Q. Mixing uniformity of chemicaland water in direct injection system[J]. Trans. Chin. Soc.Agric. Machinary,2011,42(8):75-79.
[8]郭敬坤.农药药水在线混合效果的数字图像处理技术研究[D].南京:南京林业大学,硕士学位论文,2008.Guo J K. Research on mixing degree of direct injection systemfor pesticide sprayer[D]. Nanjing:Nanjing ForestryUniversity,Master Dissertation,2008.
[9]徐幼林.植保机械混药器及其农药在线混合性能研究[D].南京:南京林业大学,博士学位论文,2009.Xu Y L. Study on Mixers for Plant Protection Machinery andChemical In-line-mixing Performances[D]. Nanjing:NanjingForestry University,Master Dissertation,2009.
[10]宋海潮,徐幼林,郑加强,等.脂溶性农药旋动射流混合机理与混药器流场数值模拟[J].农业机械学报,2016,47(9):79-84.Song H C,Xu Y L,Zheng J Q,et al.. Swirling jet mixturemechanism of fat-soluble pesticides and numerical simulation ofmixer field[J]. Trans. Chin. Soc. Agric. Mach.,2016,47(9):79-84.
[11]宋海潮,徐幼林,郑加强,等.脂溶性农药旋动射流混药器结构分析与混合均匀性试验[J].农业工程学报,2016,32(23):86-92.Song H C,Xu Y L,Zheng J Q,et al.. Structural analysis andmixing uniformity experiments of swirling jet mixer for applyingfat-soluble pesticides[J]. Trans. CSAE,2016,32(23):86-92.
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