Abstract
The colorimetric sensor array was used to detect the volatile organic compounds (VOCs) in squids with different formaldehyde content. In order to distinguish whether the formaldehyde is artificially added in the squids, the linear discriminant analysis (LDA) and K-nearest neighbor (KNN) based on principal component analysis (PCA) were used to make qualitative judgments, the result shows that the recognition rates of the training set and prediction set of the LDA model were 95% and 85% respectively, and the recognition rates of the training set and prediction set of the KNN model were both 90%. Moreover, error back propagation artificial neural network (BP-ANN) was used to quantitatively predict the concentration of formaldehyde in squids. The result indicates that the BP-ANN model acquired a good recognition rate with the correlation coefficient (Rp) for prediction was 0.9887 when the PCs was 10. To verify accuracy and applicability of the model, paired sample t-test was used to verify the difference between the predicted value of formaldehyde in the BP-ANN model and the actual addition amount. Therefore, this approach showed well potentiality to provide a fast, accuracy, no need for a pretreatment, and low-cost technique for detecting the formaldehyde in squids.
Highlights
KLQGHU LWV DSSOLFDWLRQ LQ WKH UDSLG GHWHFWLRQ RI VTXLGQ WKLV VWXG\ WKH DLP ZDV WR GHYHORS D UDSLG DQG TXDQWLWDWLYH GHWHFWLRQ PHWKRG RI IRUPDOGHK\GH FRQWHQW LQ VTXLG EDVHG RQ HOHFWURQLF QRVH IRU VFUHHQLQJ PDVVLYH VDPSOHV DQG SURYLGLQJ D UHIHUHQFH IRU SURWHFWLQJ IRRG VDIHW\ DW WKH VWDJHV RI DTXDWLF SURGXFW VWRUDJH DQG SURFHVVLQJ
5HVXOWV DQG GLVFXVVLRQ)LJ $UWLILFLDO ROIDFWLRQ V\VWHP FRPSXWHU FDPHUD OLJKW VRXUFH FRORULPHWULF VHQVRU DUUD\.
:H FKRRVH WZRWKLUGV RI DOO WKH VDPSOHV QDPHO\ VDPSOHV DV WKH WUDLQLQJ VHW DQG RQHWKLUG RI WKH VDPSOHV DV WKH SUHGLFWLRQ VHW WR HVWDEOLVK D VTXLG /'$ FODVVLILFDWLRQ GLVFULPLQDQW PRGHO $V ZH FDQ VHH IURP )LJ E LI DOO WKH VTXLG VDPSOHV DUH GLYLGHG LQWR FDWHJRULHV DFFRUGLQJ WR WKH DGGHG IRUPDOGHK\GH FRQFHQWUDWLRQ WKH PRGHO KDV WKH EHVW UHFRJQLWLRQ UDWH ZKHQ WKH 3&V LV $W WKLV WLPH WKH UHFRJQLWLRQ UDWH RI WKH WUDLQLQJ VHW LV DQG WKH UHFRJQLWLRQ UDWH RI WKH.
Summary
Q WKLV VWXG\ WKH DLP ZDV WR GHYHORS D UDSLG DQG TXDQWLWDWLYH GHWHFWLRQ PHWKRG RI IRUPDOGHK\GH FRQWHQW LQ VTXLG EDVHG RQ HOHFWURQLF QRVH IRU VFUHHQLQJ PDVVLYH VDPSOHV DQG SURYLGLQJ D UHIHUHQFH IRU SURWHFWLQJ IRRG VDIHW\ DW WKH VWDJHV RI DTXDWLF SURGXFW VWRUDJH DQG SURFHVVLQJ
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
