摘要
马铃薯是与小麦、稻米、玉米协调发展的第四大主粮作物,现阶段我国正积极推进马铃薯主食开发,但马铃薯品质的参差不齐严重制约了马铃薯产业主食化进程,马铃薯品质快速无损检测对其加工产业化进程有着重要意义。国内外学者基于可见/近红外光谱对马铃薯内部品质检测进行了不少相关研究,但迄今为止大部分研究都基于可见/近红外漫反射原理,马铃薯粗糙的表皮对样品漫反射光谱影响较大。近红外透射光谱能较好的反映样品的品质信息,但马铃薯样品全透射光谱因样品大小不同,导致光谱受光程差异的影响较大。考虑到马铃薯样品整体质地较为均匀,根据马铃薯的形状特性搭建了马铃薯局部透射光谱采集系统,局部透射检测方式既能避免马铃薯表皮的影响,又能在保证光程统一的情况下获得样品内部的信息。该光谱采集系统由光谱采集单元(光谱仪、耦合透镜)与光源单元(卤素灯、灯杯)构成。进行光谱采集时,将二者贴紧马铃薯表面以确保光谱采集单元不会接收到来自马铃薯表面的反射光。用该系统采集了120个马铃薯650~1 100 nm范围的局部透射光谱,分别进行去趋势(detrend)、多元散射校正(muliplication scattering correction,MSC)、标准正态变量变换(standard normal variable transformation,SNV)和一阶导数(first Derivative,FD)预处理,并建立了马铃薯干物质、淀粉、还原糖含量的偏最小二乘预测模型(partial least squares regression,PLSR)。结果显示,采用多元散射校正预处理的干物质和淀粉含量预测模型效果较好,其验证集决定系数分别为0. 854 0和0. 851 0,验证集均方根误差分别为0. 521 9%和0. 484 8%;采用一阶导数预处理的还原糖预测模型效果最好,其验证集决定系数为0. 768 6,均方根误差为0. 025 1%。为进一步优化模型采用竞争性自适应重加权采样(competitive adaptive reweighted sampling,CARS)�
Potato is the fourth important grain crop coordi nated with wheat,rice and corn.At present,China is actively promoting the dev elopment of potato staple foods,but the uneven quality of potatoes has seriousl y hampered the process of the main food industry of the potatoes.Therefore,rapid non-destructive testing of potato quality is of great significance to the in dustrialization of processing.Domestic and foreign scholars have conducted a number of related researches on the detection of potato internal quality based on the visible/near-infrared diffuse reflectance principle.This method is commonl y used,but the rough skin of the potato has a great impact on the detection.An other detection method is the transmission spectrum.This method can better refl ect the internal quality information of the sample.However,the total transmiss ion spectrum of the potato varies with the size of the sample and results in alarge change in spectral intensity.Considering the above two reasons and average quality of potato,this study uses partial transmission spectrum as the detecti on method.This method can not only avoid the influence of the potato epidermis,but also obtain the internal information of the sample while maintaining the sa me path length.The spectral acquisition system consists of spectral acquisition units(spectroscopes and coupling lenses)and light source units(halogen lamps and lamp cups)which are arranged side by side.During testing,the two parts a re attached to the sample surface to ensure that the spectral acquisition unit does not receive reflected light from the potato surface.Based on this system,partial transmission spectra of 120 potatoes are collected ranging from 650 to 1 100 nm.The prediction model of dry matter,starch and reducing sugar content was established using partial least squares regression after pretreat by detrend,multivariate scattering correction(MSC),standard normal variable transformatio n(SNV)and first-order derivative(FD).The result shows that the prediction m odels of dry matter and st
作者
王凡
李永玉
彭彦昆
杨炳南
李龙
刘亚超
WANG Fan;LI Yong-yu;PENG Yan-kun;YANG Bing-nan;LI Long;LIU Ya-chao(College of Engineering,China Agricultural University,National Research and Development Center for Agro-processing Equipment,Beijing 100083,China;Chinese Acadey of Agricultural Mechanization Sciences,Beijing 100083,China)
出处
《光谱学与光谱分析》
SCIE
EI
CAS
CSCD
北大核心
2018年第12期3736-3742,共7页
Spectroscopy and Spectral Analysis
基金
国家重点研发计划项目(2016YFD0401300)
国家科技支撑项目(2014BAD04B05)资助。
关键词
马铃薯
干物质
淀粉
还原糖
可见/近红外局部透射光谱
Potato
Dry matter
Starch
Reducing sugar
Visible/near-infrared partial transmission spectrum
