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基于PLS-GRNN的豆粕品质近红外光谱检测研究
引用本文:王立琦,姚静,王睿莹,陈颖淑,罗淑年,王伟宁,张艳荣. 基于PLS-GRNN的豆粕品质近红外光谱检测研究[J]. 光谱学与光谱分析, 2022, 42(5): 1433-1438. DOI: 10.3964/j.issn.1000-0593(2022)05-1433-06
作者姓名:王立琦  姚静  王睿莹  陈颖淑  罗淑年  王伟宁  张艳荣
作者单位:哈尔滨商业大学计算机与信息工程学院,黑龙江省电子商务与信息处理重点实验室,黑龙江 哈尔滨 150028;哈尔滨商业大学食品工程学院,黑龙江 哈尔滨 150028
基金项目:国家自然科学基金面上项目(32072259);;黑龙江省自然科学基金项目(LH2020C061)资助;
摘    要:豆粕是大豆浸提取豆油后经适当干燥和热处理所得副产品,是制作禽畜类饲料的主要原料,其品质决定营养价值.针对现有豆粕品质检测方法存在着有毒化学试剂使用多、操作复杂、分析时间长、无法满足实际生产线快速检测及调控需求等问题,提出一种基于近红外光谱分析的豆粕品质多组分检测方法,以期用于产品质量在线检测及调控.从大豆油脂加工生产线...

关 键 词:豆粕品质  近红外光谱  区间偏最小二乘  广义回归神经网络
收稿时间:2021-04-14

Research on Detection of Soybean Meal Quality by NIR Based on PLS-GRNN
WANG Li-qi,YAO Jing,WANG Rui-ying,CHEN Ying-shu,LUO Shu-nian,WANG Wei-ning,ZHANG Yan-rong. Research on Detection of Soybean Meal Quality by NIR Based on PLS-GRNN[J]. Spectroscopy and Spectral Analysis, 2022, 42(5): 1433-1438. DOI: 10.3964/j.issn.1000-0593(2022)05-1433-06
Authors:WANG Li-qi  YAO Jing  WANG Rui-ying  CHEN Ying-shu  LUO Shu-nian  WANG Wei-ning  ZHANG Yan-rong
Affiliation:1. School of Computer and Information Engineering, Harbin University of Commerce,Heilongjiang Provincial Key Laboratory of E-commerce and Information Processing, Harbin 150028,China2. School of Food Engineering, Harbin University of Commerce, Harbin 150028,China
Abstract:Soybean meal is a by-product of soybean oil extracted from soybean after proper drying and heat treatment. It is the main raw material for making livestock feed, and its quality determines the nutritional value. There are many problems with existing soybean meal quality detection methods, such as the use of toxic chemical reagents, complex operation, long analysis time, so they cannot meet the needs of rapid detection and control in the production process. This paper proposes a multi-component detection method of soybean meal quality based on near infrared spectroscopy for on-line detection and control of product quality. 449 soybean meal samples were collected from the soybean oil processing line. The chemical values of moisture, protein and fat were determined by 105 ℃ oven method, Kjeldahl nitrogen determination method and Soxhlet extraction method, respectively. The diffuse reflectance spectra of samples were collected by the Swiss Buchi NIRMaster Fourier Transform near-infrared spectrometer. Firstly, the Mahalanobis distance method was used to remove abnormal samples, and then the spectral denoising was processed by various methods. The results show that the wavelet denoising effect is the best. KS and SPXY algorithms were used to determine the optimal sample partition of different components. In order to investigate the NIR absorption characteristics of soybean meal components, eliminate spectral redundancy and reduce the computational complexity of the model, interval Partial Least Squares (iPLS) was used to extract the features from the whole spectrum of 4 000~10 000 cm-1. The optimized characteristic absorption bands of moisture, protein and fat were 4 904~5 200, 4 304~4 600 and 4 304~4 600 cm-1, respectively. Finally, a Generalized Regression Neural Network (GRNN) model was established to predict the component contents of soybean meal. In order to reduce the input variables and the network scale improve the operation speed, PLS was used to reduce the dimension of spectral data, and the principal factor score was extracted as the input variable of GRNN. The PLS-GRNN prediction models of soybean meal multi-component contents were established by optimizing the smooth factor spread through the cross-validation and compared with the classical PLS and BP models. The results show that the PLS-GRNN models are good, the prediction determination coefficients (R2) of moisture, protein and fat are 0.976 9, 0.940 2 and 0.911 1, the Root-Mean-Square Errors of Prediction (RMSEP) are 0.091 2, 0.383 4 and 0.113 4, the Relative Standard Deviations (RSD) of prediction are 0.79 %, 0.83 % and 8.53 %, respectively. Although the prediction error for fat is relatively large, it is also within the available range of the model evaluation criteria. The results show that the near infrared spectroscopy analysis based on PLS-GRNN is feasible to detect soybean meal quality and can be used for quality monitoring in the actual production process.
Keywords:Soybean meal quality  Near-infrared spectroscopy (NIR)  Interval partial least squares (iPLS)  Generalized regression neural network (GRNN)  
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