摘要
芒果属于后熟水果,芒果成熟度分级可为芒果后熟、加工、包装、运输等工作提供便利条件。针对芒果形状不规则,难以对整个外观进行检测的问题,该文提出了一种基于迁移学习的芒果双面成熟度在线检测分级系统。通过上、下层输送带将芒果运输到图像采集区域,分别获取正、反面图像;2层输送带之间利用柔性翻面机构实现芒果无损翻面,通过压缩试验及ANSYS软件建模分析芒果承受挤压力范围。合并正、反2张图像并进行预处理,将数据以8:1.5:1.5的比例拆分为训练集、验证集、测试集,并用迁移学习方法在卷积神经网络模型进行芒果成熟度分级。使用卷积神经网络模型对芒果成熟度分级平均准确率达到96.72%,系统测定单个样品的平均耗时为0.16s,研究结果为芒果成熟度在线分级提供参考。
Mangoes are ripe fruits.The maturity classification of mangoes can provide convenience for mango ripening,processing,packaging and transportation.Compared with spherical fruit,mango is special shape and soft texture,and its multi-side images are difficult to acquire.Aiming at the irregular shape of mango and the difficulty of detecting the entire appearance,a mango double-sided maturity online detection and classification system based on transfer learning was proposed.The system is mainly composed of conveying device,flexible turning-over mechanism,image acquisition device,grading device and control system.According to the maturity grading standard,the mango is divided into three levels:green ripe,mature and overripe.Then,the mangoes are transported to the image acquisition area through the upper and lower conveyor belts,and image acquisition device obtain images from opposite sides.The control system combines the two-sided image of mango for maturity analysis,and the control grading device classifies mango according to the grading results.A flexible turning-over mechanism is arranged between the two conveyor belts,and the mango is clamped by two flexible belts with the same moving speed and opposite direction,which can ensure that a mango is only turned over once.The mechanical parameters of mango were measured by texture analyzer,and the maximum extrusion force of mango was 1.47-15 N through ANSYS analysis.Then,the spring is adaptively adjusted to maintain the proper clamping force for the mango.The whole process of the device is carried out by the motor to drive the conveyor belt to achieve mango transportation.Conveying speed can be adjusted from 0 to 0.5 m/s.The upper conveyor belt camera and the lower conveyor belt camera of the device respectively acquire the front and back images of each mango into one image,and the combined image size is 640×960 pixels.The image is preprocessed,and the size of the image is scaled to 224×224 pixels.At the same time,the gray value of each channel is determined in the ran
作者
向阳
林洁雯
李亚军
胡正方
熊瑛
Xiang Yang;Lin Jiewen;Li Yajun;Hu Zhengfang;Xiong Ying(College of Engineering,Hunan Agricultural University,Changsha 410128,China)
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2019年第10期259-266,共8页
Transactions of the Chinese Society of Agricultural Engineering
基金
湖南省重点研发计划(2017NK2131)
关键词
机器视觉
分级
模型
芒果
双面检测
翻面机构
卷积神经网络
成熟度
computer vision
classification
models
mango
double-sided detection
turning-over mechanism
convolutional neural network
maturity
