光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
10期
2679-2684
,共6页
王加华%张晓伟%王军%韩东海
王加華%張曉偉%王軍%韓東海
왕가화%장효위%왕군%한동해
可见/近红外光谱%便携式光谱仪%漫透射%生鲜乳%品质指标
可見/近紅外光譜%便攜式光譜儀%漫透射%生鮮乳%品質指標
가견/근홍외광보%편휴식광보의%만투사%생선유%품질지표
Vis/NIR spectroscopy%Portable spectrometer%Diffused transmittance%Raw milk%Quality index
生鲜乳作为乳制品生产的基本原料,其质量是保证乳制品食用安全、维护人类健康的基础。可见/近红外光谱技术结合化学计量学方法,构建生鲜乳品质指标的数学模型,实现生鲜乳品质的现场评价。在不同年份,收集88份来自不同奶牛个体的生鲜乳样品。便携式光谱仪采集生鲜乳漫透射光谱(500~1010 nm ),二阶导数和卷积平滑进行光谱预处理,以消除脂肪球引起的光散射和高频噪声。变窗宽移动窗口偏最小二乘法(CSMWPLS)和遗传偏最小二乘法(GAPLS)用于筛选信息区间,并构建预测模型。CSMWPLS与GAPLS模型的预测性能相当,脂肪、蛋白质、干物质和乳糖的预测标准误差(RMSEP)分别为0.1156/0.1033,0.0962/0.1137,0.2013/0.1237和0.0774/0.0668,相对预测误差(RPD )分别为8.99/10.06,3.53/2.99,5.76/9.38和1.81/2.10。同时构建了生鲜乳品质指标的多元线性回归(MLR)方程,采用的最优变量数分别为8,10,9和7。采用外部数据集检验,MLR预测性能与PLS相近甚至更优,脂肪、蛋白质、干物质和乳糖模型的RMSEP分别为0.1070,0.0930,0.1360和0.0658;相对预测误差(RPD)分别为9.72,3.66,8.53和2.13,可用于现场准确测量。结果显示,便携式近红外光谱仪结合M L R模型可实现生鲜乳品质的现场快速评价,为生鲜乳按质论价收购提供了一种新方法,同时为便携式乳品近红外专用仪器设计提供技术参考。
生鮮乳作為乳製品生產的基本原料,其質量是保證乳製品食用安全、維護人類健康的基礎。可見/近紅外光譜技術結閤化學計量學方法,構建生鮮乳品質指標的數學模型,實現生鮮乳品質的現場評價。在不同年份,收集88份來自不同奶牛箇體的生鮮乳樣品。便攜式光譜儀採集生鮮乳漫透射光譜(500~1010 nm ),二階導數和捲積平滑進行光譜預處理,以消除脂肪毬引起的光散射和高頻譟聲。變窗寬移動窗口偏最小二乘法(CSMWPLS)和遺傳偏最小二乘法(GAPLS)用于篩選信息區間,併構建預測模型。CSMWPLS與GAPLS模型的預測性能相噹,脂肪、蛋白質、榦物質和乳糖的預測標準誤差(RMSEP)分彆為0.1156/0.1033,0.0962/0.1137,0.2013/0.1237和0.0774/0.0668,相對預測誤差(RPD )分彆為8.99/10.06,3.53/2.99,5.76/9.38和1.81/2.10。同時構建瞭生鮮乳品質指標的多元線性迴歸(MLR)方程,採用的最優變量數分彆為8,10,9和7。採用外部數據集檢驗,MLR預測性能與PLS相近甚至更優,脂肪、蛋白質、榦物質和乳糖模型的RMSEP分彆為0.1070,0.0930,0.1360和0.0658;相對預測誤差(RPD)分彆為9.72,3.66,8.53和2.13,可用于現場準確測量。結果顯示,便攜式近紅外光譜儀結閤M L R模型可實現生鮮乳品質的現場快速評價,為生鮮乳按質論價收購提供瞭一種新方法,同時為便攜式乳品近紅外專用儀器設計提供技術參攷。
생선유작위유제품생산적기본원료,기질량시보증유제품식용안전、유호인류건강적기출。가견/근홍외광보기술결합화학계량학방법,구건생선유품질지표적수학모형,실현생선유품질적현장평개。재불동년빈,수집88빈래자불동내우개체적생선유양품。편휴식광보의채집생선유만투사광보(500~1010 nm ),이계도수화권적평활진행광보예처리,이소제지방구인기적광산사화고빈조성。변창관이동창구편최소이승법(CSMWPLS)화유전편최소이승법(GAPLS)용우사선신식구간,병구건예측모형。CSMWPLS여GAPLS모형적예측성능상당,지방、단백질、간물질화유당적예측표준오차(RMSEP)분별위0.1156/0.1033,0.0962/0.1137,0.2013/0.1237화0.0774/0.0668,상대예측오차(RPD )분별위8.99/10.06,3.53/2.99,5.76/9.38화1.81/2.10。동시구건료생선유품질지표적다원선성회귀(MLR)방정,채용적최우변량수분별위8,10,9화7。채용외부수거집검험,MLR예측성능여PLS상근심지경우,지방、단백질、간물질화유당모형적RMSEP분별위0.1070,0.0930,0.1360화0.0658;상대예측오차(RPD)분별위9.72,3.66,8.53화2.13,가용우현장준학측량。결과현시,편휴식근홍외광보의결합M L R모형가실현생선유품질적현장쾌속평개,위생선유안질론개수구제공료일충신방법,동시위편휴식유품근홍외전용의기설계제공기술삼고。
To ensure the material safety of dairy products ,visible (Vis)/near infrared (NIR) spectroscopy combined with che-mometrics methods was used to develop models for fat ,protein ,dry matter (DM ) and lactose on-site evaluation .A total of 88 raw milk samples were collected from individual livestocks in different years .The spectral of raw milk were measured by a porta-ble Vis/NIR spectrometer with diffused transmittance accessory .To remove the scatter effect and baseline drift ,the diffused transmittance spectra were preprocessed by 2nd order derivative with Savitsky-Golay (polynomial order 2 ,data point 25) . Changeable size moving window partial least squares (CSMWPLS) and genetic algorithms partial least squares (GAPLS) meth-ods were suggested to select informative regions for PLS calibration .The PLS and multiple linear regression (MLR) methods were used to develop models for predicting quality index of raw milk .The prediction performance of CSMWPLS models were similar to GAPLS models for fat ,protein ,DM and lactose evaluation ,the root mean standard errors of prediction (RMSEP) were 0.115 6/0.103 3 ,0.096 2/0.113 7 ,0.201 3/0.123 7 and 0.077 4/0.066 8 ,and the relative standard deviations of predic-tion (RPD) were 8.99/10.06 ,3.53/2.99 ,5.76/9.38 and 1.81/2.10 ,respectively .Meanwhile ,the MLR models were also cal-ibrated with 8 ,10 ,9 and 7 variables for fat ,protein ,DM and lactose ,respectively .The prediction performance of MLR models was better than or close to PLS models .The MLR models to predict fat ,protein ,DM and lactose yielded the RMSEP of 0.107 0 ,0.093 0 ,0.136 0 and 0.065 8 ,and the RPD of 9.72 ,3.66 ,8.53 and 2.13 ,respectively .The results demonstrated the use-fulness of Vis/NIR spectra combined with multivariate calibration methods as an objective and rapid method for the quality evalu-ation of complicated raw milks .And the results obtained also highlight the potential of portable Vis/NIR instruments for on-site assessing quality indexes of raw milk .