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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 875-877Application of Electronic Nose for Detection of...

Application of Electronic Nose for Detection of Wine-Aging Methods

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Abstract:

This study reports the application of an electronic nose for the identification and classification of red wines aged three different methods. The signals of the different wines detected by the 10 sensors present in the E-nose are significantly different from each other. The response to the signal generates a typical chemical fingerprint of the volatile compounds present in the wines. Principal Component Analysis can be applied for the dimensionality reduction of the collected signal. Since the total contribution rate of the first three principal components is up to 97.27%, different wines can be distinguished from each other by the three principal components. Euclidean distance, correlation analysis, Mahalanobis distance and linear discrimination analysis can offer 100% accuracy for known samples, and the accuracy rate can reach 88.9% for the 18 test samples. In addition, numerous advantages exist compared with sensory analysis in both authentication and quality control of wines.

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Periodical:

Advanced Materials Research (Volumes 875-877)

Pages:

2206-2213

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.875-877.2206

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Online since:

February 2014

Authors:

Yang Ji Wei, Li Li Yang, Ying Ping Liang, Jing Ming Li

Keywords:

Electronic Nose, Principal Component Analysis (PCA), Wine

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] J. Ballester, C. Dacremont, Y. Le Fur and P. Etiévant : Food Qual. Preference. Vol. 16 (2005), pp.351-359.

DOI: 10.1016/j.foodqual.2004.06.001

[2] N. Cayot: Food Chem. Vol. 101 (2007), pp.154-162.

[3] W.V. Parr, J.A. Green, K.G. White and R.R. Sherlock: Food Qual. Preference. Vol. 18 (2007), pp.849-861.

[4] J. P. Towey and A.L. Waterhouse: Am. J. Enol. Vitic. Vol. 47 (1996), pp.163-172.

[5] E.M. Díaz-Plaza, J.R. Reyero, F. Pardo, G. L. Alonso and M. R. Salinas: Agric. Food Chem. Vol. 50, (2002), pp.2622-2626.

DOI: 10.1021/jf010521l

[6] M.S. Pérez-Coello, M.A. Sánchez, E. García, M.A. González-Viñas, J. Sanz and M.D. Cabezudo: Food Chem. Vol. 48(2000), pp.885-889.

DOI: 10.1021/jf990884+

[7] T. Garde-Cerdán, C. Lorenzo, J.M. Carot, M.D. Esteve, M.D. Climent and M.R. Salinas : Food Control. Vol. 20 (2009) , pp.269-276.

DOI: 10.1016/j.foodcont.2008.05.003

[8] S. Pérez-Magariño, M. Ortega-Heras, E. Cano-Mozo and L. González-Sanjosé: J. Food Compos. Anal. Vol. 22 (2009) , pp.204-211.

DOI: 10.1016/j.jfca.2008.09.006

[9] P. Arapitsas, A. Antonopoulos, E. Stefanou and V.G. Dourtoglou: Food Chem. Vol. Vol. 86 (2004), pp.563-570.

DOI: 10.1016/j.foodchem.2003.10.003

[10] C. Proestos, P. Loukatos and M. Komaitis: Food Chem. Vol. 106(2008) , pp.1218-1224.

[11] R.G. Peres, E.P. Moraes, G.A. Micke, F.G. Tonin, M.F.M. Tavares and D.B. Rodriguez-Amaya: Food Control. Vol. 20 (2009) , pp.548-552.

DOI: 10.1016/j.foodcont.2008.08.004

[12] P. Viñas, N. Campillo, N. Martínez-Castillo and M. Hernández-Córdoba: J. Chromatogr. A. Vol. 1216 (2009) , pp.1279-1284.

[13] V. Ferreira, A. Rapp, J.F. Cacho, H. Hastrich and I. Yavas: J. Agric. Food Chem. Vol. 41(1993), pp.1413-1420.

DOI: 10.1021/jf00033a012

[14] C.L. Arthur and J. Pawliszyn: Anal Chem. Vol. 62 (1990), pp.2145-2148.

[15] A.H. Gómez, G. Hu, J. Wang and A.G. Pereira: Comput. Electron. Agric. Vol. 54 (2006), pp.44-52.

[16] M. Bernabei, G. Pennazza, M. Santonico, C. Corsi, C. Roscioni, R. Paolesse, C. Di Natale and A. D'Amico: Sensor Actuator B-Chem. Vol. 131 (2008), pp.1-4.

DOI: 10.1016/j.snb.2007.12.030

[17] V. Diz, M. Cassanello and R.M. Negri: Sci. Technol. Vol. 40 (2006), pp.6058-6063.

[18] A.P. Cramp, J.H. Sohn and P.J. James: Vet. Parasitol. Vol. 166 (2009), pp.293-298.

[19] I. Concina, M. Falasconi, E. Gobbi, F. Bianchi, M. Musci, M. Mattarozzi, M. Pardo, A. Mangia, M. Careri and G. Sberveglieri : Food Control. Vol. 20 (2009), pp.873-880.

DOI: 10.1016/j.foodcont.2008.11.006

[20] Y. Blixt and E. Borch: Int. J. Food Microbiol. Vol. 46 (1999), pp.123-134.

[21] H.V. Shurmer and J.W. Gardner: Sensor Actuator B-Chem. Vol. 8, (1992) pp.1-11.

[22] L. Marilley and M.G. Casey: Int. J. Food Microbiol. Vol. 90 (2004), pp.139-159.

[23] H.C. Yu and J. Wang: Sensor Actuator B-Chem. Vol. 122 (2007), pp.134-140.

[24] J. Olsson, T. Börjesson, T. Lundstedt and J. Schnürer: Int. J. Food Microbiol. Vol. 59 (2000), pp.167-178.

[25] J. Olsson, T. Börjesson, T. Lundstedt and J. Schnürer: Int. J. Food Microbiol. Vol. 72, (2002) pp.203-214.

[26] M. O'Connell, G. Valdora, G. Peltzer and R. Martn Negri: Sensor Actuator B-Chem. Vol. 80 (2001), pp.149-154.

[27] C. Di Natale, A. Macagnano, E. Martinelli, E. Proietti, R. Paolesse, L. Castellari, S. Campani and A. D'Amico: Sensor Actuator B-Chem. Vol. 77 (2001), pp.561-566.

DOI: 10.1016/s0925-4005(01)00705-5

[28] J. Brezmes, E. Llobet, X. Vilanova, G. Saiz and X. Correig: Sensor Actuator B-Chem. Vol. 69 (2000), pp.223-229.

[29] J. Brezmes, E. Llobet, X. Vilanova, J. Orts, G. Saiz and X. Correig: Sensor Actuator B-Chem. Vol. 80 (2001), pp.41-50.

[30] B. Wang, S. Xu and D.W. Sun: Food Res. Int. Vol. 43 (2010), pp.255-262.

[31] A. Guadarrama, J.A. Fernández, M. Íñiguez, J. Souto and J.A. De Saja: Anal. Chim. Acta. Vol. 411 (2000), pp.193-200.

DOI: 10.1016/s0003-2670(00)00769-8

[32] A.Z. Berna, S. Trowell, D. Clifford, W. Cynkar and D. Cozzolino: Anal. Chim. Acta. Vol. 648 (2009), pp.146-152.

DOI: 10.1016/j.aca.2009.06.056

[33] J. Lozano, T. Arroyo, J.P. Santos, J.M. Cabellos and M.C. Horrillo: Sensor Actuator B-Chem. Vol. 133 (2008), pp.180-186.

[34] C. Sârbu, R.D. Naşcu-Briciu, A. Kot-Wasik, S. Gorinstein, A. Wasik and J. Namieśnik: Food Chem. Vol. 130 (2012), pp.994-1002.

DOI: 10.1016/j.foodchem.2011.07.120

[35] A.C. Moţ, F. Soponar and C. Sârbu: Talanta. Vol. 81 (2010), pp.1010-1015.

DOI: 10.1016/j.talanta.2010.01.052

[36] M. Ortega-Heras, C. González-Huerta, P. Herrera and M. L. González-Sanjosé: Anal. Chim. Acta. Vol. 513 (2004), p.341–350.

DOI: 10.1016/j.aca.2003.10.051