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基于偏最小二乘投影的可见/近红外光谱猪肉综合品质分类
引用本文:刘媛媛,彭彦昆,王文秀,张雷蕾. 基于偏最小二乘投影的可见/近红外光谱猪肉综合品质分类[J]. 农业工程学报, 2014, 30(23): 306-313
作者姓名:刘媛媛  彭彦昆  王文秀  张雷蕾
作者单位:1. 中国农业大学工学院,国家农产品加工技术装备研发分中心,北京 100083; 塔里木大学机械电气化工程学院,阿拉尔 843300
2. 中国农业大学工学院,国家农产品加工技术装备研发分中心,北京 100083
基金项目:公益性行业(农业)科研专项经费项目(201003008);国家科技支撑计划项目(2012BAH04B02)
摘    要:针对全波段光谱技术的生鲜猪肉综合品质快速无损分类存在光谱数据量大、样本数量较少时分类准确率较低等缺点。该文提出了一种基于偏最小二乘(partial least squares,PLS)投影分析算法和支持向量机的生鲜猪肉综合品质分类器。利用基于偏最小二乘投影分析算法对全波段光谱数据进行数据降维,选取了13个特征波长。利用粒子群优化算法优化支持向量机惩罚参数和径向基核函数参数,优化后二者最优为4.939和0.01。利用选取的特征波长和优化后的参数建立了生鲜猪肉综合品质支持向量分类器。研究结果表明,分类器对训练集中白肌肉(pale,soft and exudative,PSE)、正常肉(reddish-pink,firm and non-exudative,RFN)和黑干肉(dark,firm and dry,DFD)的回判识别率分别为为88.46%、94.11%和92.31%;测试集中PSE、RFN和DFD预测正确率分别为84.62%、94.11%和84.62%。该分类器满足模型简单、预测准确率高等优点,为生鲜猪肉综合品质在线分级提供参考。

关 键 词:  无损检测  光谱学  综合品质  偏最小二乘投影分析算法  粒子群优化算法  支持向量机
收稿时间:2014-08-26
修稿时间:2014-09-25

Classification of pork comprehensive quality based on partial least squares projection and Vis/NIR spectroscopy
Liu Yuanyuan,Peng Yankun,Wang Wenxiu and Zhang Leilei. Classification of pork comprehensive quality based on partial least squares projection and Vis/NIR spectroscopy[J]. Transactions of the Chinese Society of Agricultural Engineering, 2014, 30(23): 306-313
Authors:Liu Yuanyuan  Peng Yankun  Wang Wenxiu  Zhang Leilei
Affiliation:1. College of Engineering, China Agricultural University, National R&D Centre for Agro-Processing Equipments, Beijing 100083, China2. College of Mechanic and Electrical Engineering, Tarim University, Alar 843300, China,1. College of Engineering, China Agricultural University, National R&D Centre for Agro-Processing Equipments, Beijing 100083, China,1. College of Engineering, China Agricultural University, National R&D Centre for Agro-Processing Equipments, Beijing 100083, China and 1. College of Engineering, China Agricultural University, National R&D Centre for Agro-Processing Equipments, Beijing 100083, China
Abstract:Abstract: Pale, soft, and exudative (PSE) and dark, firm, and dry (DFD) are degraded grades of pork. Reddish- pink, firm, and non-exudative (RFN) are considered superior grades of pork. The meat color, pH value, and water holding capacity for PSE, DFD, and RFN have different ranges which directly influence the purchasing decision of customers, thus affecting the economic benefits of the pork processors. With growing demand for quality meat and increasing state-of the-art meat processing technologies, pork industries are in need of a reliable technology for rapid, accurate, and non-destructive detection of meat quality. Spectral technology has gained importance in agricultural research and the meat industry. Spectral technology has also shown its massive potential in the meat industry. However, full wave band contains huge amount of spectral information, which possess a severe drawback to spectroscopic technology in terms of its accuracy and detection speed. This study proposes a pork comprehensive quality classifying method based on partial least squares (PLS) projection algorithm and support vector machine (SVM). The acquired spectral data of sample meat were first normalized using standard normal variation (SNV) transformation method. Next, the whole sample was randomly classified into two sets: the calibration set (for developing prediction model using 75% of total samples) and the validation set ( to validate the model using remaining 25% of the total samples). Mean filter was used to smooth the normalized spectral signal. Partial least square projection method was then used to obtain projection coefficients for each wave band. Classification models were developed using 1 to 20 different wave bands, and root mean square errors (RMSE) of each model were calculated by cross validation. The lowest RMSE was obtained using 13 wave bands and it was observed that it became stable with more wavelengths. The spectral wave lengths of 371, 388, 425, 456, 473, 562, 578, 607, 696, 764, 772, 813 and 927 nm were chosen based on the RMSE value to develop a pork quality prediction and classification model. Particle swarm optimization (PSO) algorithm optimized penalty parameter and radial basis core function parameter, was 4.939 and 0.01 for the best. Pork comprehensive quality SVM classifier was established using special wavelengths and optimized parameters. It was shown that the back-to-recognition rate of pale, soft, and exudative (PSE), reddish, firm, and non-exudative (RFN), and dark, firm, and dry (DFD) in training sets were 88.46%, 94.11%, and 92.31% respectively. For testing sets, predictive accuracy rates of three kinds were 84.62%, 94.11%, and 84.62% respectively. The study revealed the advantages of the established classifier, such as based on simple model and achieving high prediction accuracy, and so on. This study shows a simple, rapid, and non-destructive method by optical instrument to detect and classify pork based on its comprehensive quality. The study can be a milestone to develop a fast, accurate, and reliable technique for non-destructive detection of pork in slaughtering house, super markets and other required areas where quality is a concern.
Keywords:meats   nondestructive examination   spectroscopy   comprehensive quality   partial least square projection algorithm   particle swarm optimization algorithm   support vector machine
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