园林自动喷药机器人杂草识别与导航方法探究
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摘要
园林杂草与景观植物伴随生长,在防控不力的情况下能够很快发展为优势种群,引起自然景观早衰和退化。喷洒除草剂是清除园林杂草的有效方法,但会威胁操作人员的健康。喷药机器人若要准确、高效地完成喷药作业,则必须具备精准喷药和自主导航的功能。为此,将计算机视觉应用在园林喷药机器人上,根据颜色和形状特征识别杂草,根据颜色特征识别路径并规划获得行走路线。试验中,喷药机器人对园林杂草具有较高的识别精度,实际行走路线与规划的路线基本吻合,能够实现精准喷药和自主导航;机器人处理单幅图像仅耗时0. 1 s,可以满足实际作业的需求。
Garden weeds and landscape plants are accompanied by growth,and they can quickly develop into dominant populations in the absence of prevention and control,causing premature aging and degradation of natural landscapes. Spraying herbicides is an effective way to remove garden weeds,but it can threaten the health of operators. Spraying robots must have accurate spray and autonomous navigation functions to complete the spraying operations accurately and efficiently. In this paper,computer vision is applied to garden spray robots to identify weeds based on their color and shape features. At the same time,we identify paths based on color features and plan to obtain walking routes. In the experiment,the spray robot has high recognition accuracy for garden weeds,and the actual walking route is basically consistent with the planned route,enabling accurate spray and autonomous navigation. It takes only 0. 1 s for the robot to process a single image,which can meet the needs of actual operations. The level of intelligence and automation has been improved.
Garden weeds and landscape plants are accompanied by growth,and they can quickly develop into dominant populations in the absence of prevention and control,causing premature aging and degradation of natural landscapes. Spraying herbicides is an effective way to remove garden weeds,but it can threaten the health of operators. Spraying robots must have accurate spray and autonomous navigation functions to complete the spraying operations accurately and efficiently. In this paper,computer vision is applied to garden spray robots to identify weeds based on their color and shape features. At the same time,we identify paths based on color features and plan to obtain walking routes. In the experiment,the spray robot has high recognition accuracy for garden weeds,and the actual walking route is basically consistent with the planned route,enabling accurate spray and autonomous navigation. It takes only 0. 1 s for the robot to process a single image,which can meet the needs of actual operations. The level of intelligence and automation has been improved.
引文
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[3]孙雪,宋朋,姚名晖.果园喷药机器人的创新设计[J].安徽农业科学,2013,41(30):12204-12206.
[4]曹玮鑫,张金砖,李东坤,等.远程遥控式智能果园喷药机器人的设计[J].湖北农业科学,2018,57(8):114-122.
[5]尹东富,陈树人,裴文超,等.基于处方图的室内变量喷药系统设计[J].农业工程学报,2011,27(4):131-135.
[6]纪良文,赵德安,吴春笃.喷药机器人辅助视觉系统中超声测距数据的采集与处理[J].江苏理工大学学报,1999,20(3):86-90.
[7]周恩浩,蔡晓晖,何斌斌,等.温室喷药机器人的视觉方案[J].重庆工学院学报:自然科学版,2008,22(8):151-155.
[8]毛文华,王一鸣,张小超,等.基于机器视觉的田间杂草识别技术研究进展[J].农业工程学报,2004,20(5):43-46.
[9]郭亭亭,杨然兵,李娟,等.机器视觉喷药机器人的研发[J].中国农机化,2015,36(5):215-219.
[10]陈中伟,肖华,吴功平.高压巡线机器人电磁传感器导航方法[J].传感器与微系统,2006,25(9):33-35.
[11]杨世胜,张宾.电磁诱导农用喷雾机器人路径导航系统的设计与实现[J].机器人,2007,29(1):78-81.
[12]孙元义,张绍磊,李伟.棉田喷药农业机器人的导航路径识别[J].清华大学学报:自然科学版,2007,47(2):206-209.
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[14]江锽,肖爱平.喷药机器人在温室中道路识别及边界提取的研究[J].林业机械与木工设备,2014,42(10):18-21.
[15]纪寿文,王荣本,陈佳娟,等.应用计算机图形处理技术识别玉米苗期田间杂草的研究[J].农业工程学报,2001,17(2):154-156.
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