طبقهبندی هوشمند گوشت مرغ تازه از نوع منجمد یخزدایی شده به کمک ماشین بویایی
الموضوعات :امین طاهری گراوند 1 , اسماعیل میرزائی قلعه 2 , فردین ایاری 3
1 - استادیار گروه مهندسی مکانیک بیوسیستم، دانشکده کشاورزی، دانشگاه لرستان، خرم آباد، ایران
2 - استادیار گروه مهندسی مکانیک بیوسیستم، دانشکده کشاورزی، دانشگاه رازی، کرمانشاه، ایران
3 - دانش آموخته کارشناسی ارشد گروه مهندسی مکانیک بیوسیستم، دانشکده کشاورزی، دانشگاه رازی، کرمانشاه، ایران
الکلمات المفتاحية: تازگی, حسگر, گوشت مرغ, ماشین بویایی,
ملخص المقالة :
مقدمه: گوشت منبع اصلی تأمین پروتئین حیوانی مورد نیاز بدن انسان است. گوشت مرغ مصرف بالایی در جوامع بشری دارد و تازگی مهمترین مشخصه کیفی گوشت مرغ محسوب میشود. با توجه به اهمیت تشخیص گوشت مرغ تازه از نوع منجمد یخ زدایی شده در بازار، به دستگاهی نیاز است که بتواند گوشت مرغ تازه از نوع منجمد یخزدایی شده و به نوعی تقلب و فساد را تشخیص دهد. مواد و روشها: در این پژوهش، یک سامانهی قابل حمل ماشین بویایی بر پایه هشت حسگر نیمههادی اکسـید فلـزی برای تشخیص گوشت مرغ تازه از نوع منجمد یخزدایی شده مورد بررسی قرار گرفت. برای هر آزمایش مقدار 10 گرم گوشت مورد آزمایش قرار گرفت. دادههای حاصل از حسگرها، پس از پیش پردازش توسط روشهای PCA و الگوریتم K نزدیکترین همسایه (KNN) مورد تحلیل قرار گرفت. یافتهها: بر اساس نتایج روشهای PCA و الگوریتم K نزدیکترین همسایه (KNN)، سامانه ماشین بویایی عملکرد مناسبی برای بررسی تازگی گوشت مرغ داشت. همچنین نتایج نمودارهای رادار و لودینگ نشان داد که بوی گوشت مرغ بیشترین و کمترین تأثیر را به ترتیب بر روی حسگر MQ136 و حسگر TGS822 داشت. نتیجهگیری: سامانه ماشین بویایی روشی بسیار مؤثر برای شناسایی تازگی گوشت مرغ میباشد که دلیل اصلی آن میتنی بر سرعت، هزینه کم و قابل اطمینان بودن حسگرها است.
ایاری، ف. (1396). توسعه و پیاده سازی سامانه بینی الکترونیک به منظور تشخیص روغن حیوانی گاوی از نوع تقلبی. پایان نامه کارشناسی ارشد مهندسی مکانیک بیوسیستم. دانشگاه رازی. ایران.
شیبانی تذرجی، الف. ( 1394). تشخیص کیفیت و درجه بندی گوشت شترمرغ با استفاده از تکنیک ماشین بینایی. پایان نامه کارشناسی ارشد مهندسی مکانیک بیوسیستم، دانشگاه جیرفت.
صنیعی آباده، م.، محمودی، س. و طاهرپور، م. (1393). داده کاوری کاربردی. انتشارات نیاز دانش.
Arshak, K., Moore, E., Lyons, G. M., Harris, J. & Clifford, S. (2004). A review of gas sensors employed in electronic nose applications. Sensor Review, 24, 181- 198.
Atanassova, S., Stoyanchev, T., Yorgov, D. & Nachev, V. (2018). Differentiation of fresh and frozen-thawed poultry breast meat by near infrared spectroscopy. Bulgarian Journal of Agricultural Science, 24, 162-168.
Ayari, F., Mirzaee- Ghaleh, E., Rabbani, H. & Heidarbeigi, K. (2018a). Using an E-nose machine for detection the adulteration of margarine in cow ghee. Journal of Food Process Engineering, e12806.
Ayari, F., Mirzaee- Ghaleh, E., Rabbani, H. & Heidarbeigi, K. (2018b). Detection of the adulteration in pure cow ghee by electronic nose method (case study: sunflower oil and cow body fat). Inernational Journal of Food Properties, 21 (1), 1670- 1679.
Balasubramanian, S., Panigrahi, S., Logue, C., Marchello, M., Doetkott, C., Gu, H., Sherwood, J. & Nolan, L. (2009). Spoilage identification of beef using an electronic nose system. Transactions of the American Society of Agricultural Engineering, 47(5), 1625–1633.
Beygzadeh, S. & Chizaree, A. (2007). Study of marketing channel and factors affecting marketing margin of potato. Journal of Agricultural Economics and Development, 15 (57), 81-103.
Bothe, D. D. H. & Arnold, J. W. (2002).
Electronic nose analysis of volatile compounds
from poultry meat samples, fresh and after refrigerated storage. Journal of the Science of Food and Agriculture, 82, 315–322.
Changying, L., Heinemannb, P. & Richard, S. (2007). Neural network and Bayesian networkfusion models to fuse electronic nose and surface acoustic wave sensor data for apple defect detection. Sensors and Actuators B: Chemical, 125, 301–310.
Chen, Q., Hui, Zh., Zhao, J. & Ouyang, Q. (2014). Evaluation of chicken freshness using a low-cost colorimetric sensor array with AdaBooste OLDA classification algorithm. LWT – Food Science and Technology, 57(2), 502-507.
Connell, M., Valdora, G., Peltzer, G. & Negri, R. M. (2001). A practical approach for fish freshness determinations using a portable electronic nose. Sensors and Actuators B: Chemical, 80, 149–154.
Darzi, M., Olfat Bakhsh, A., Gorgin, S., Oveisi, F., Hashemi, A. & Alavi, N. (2016). Classification of unbalanced data in the primary diagnosis of breast diseases with adebast methods, probable neural network and K to the nearest neighbor. Iranian Journal of Breast Diseases, 9 (2), 1-12.
Edita R., Darius G., Vinauskienė R., Eisinaitė V., Balčiūnas G., Dobilienė J. & Tamkutė L. (2018). Rapid evaluation of fresh chicken meat quality by electronic nose. Czech Journal of Food Science, 36, 420-426.
El Barbri, N. E., Mirhisse. J., Ionescu, R., El Bari, N., Correig. X., Bouchikhi, B. & Llobet, E. (2009(. An electronic nose system based on a micro-machined gas sensor array to assess the freshness of sardines. Sensors and Actuators B: Chemical, 141(2), 538-543.
Ellerbroek, L.I., Lichtenberg, G. & Weise, E. (1995). Differentiation between fresh and thawed meat by an enzyme profile test. Meat Science, 40, 203- 209.
Fraizer, V. & Vesthof, D. (2010). Food microbiology (5th ed). Translated by Mortazavi, A. University of ferdowsi press. Mashhad. PP, 29-40.
Ghasemi-Varnamkhasti, M., Mohtasebi, S. S., Siadat, M., Lozano, J., Ahmadi, H., Razavi, S. H. & Dicko, A. (2011). Aging fingerprint characterization of beer using electronic nose. Sensors and Actuators B: Chemical, 159, 51-59.
Gram, L., Ravn, L., Rasch, M., Bruhn, J. B., Christensen, A. B. & Givskov, M. (2002). Food spoilage interactions between food spoilage bacteria. Inernational Journal of Food Microbiology, 78(1-2), 79-97.
Heidarbeigi, K., Mohtasebi, S. S., Foroughirad, A., Ghasemi-Varnamkhasti, M, Rafiee, S. & Rezaei, K. (2015). Detection of adulteration in saffron samples using electronic nose. International Journal of Food Properties, 18, 1391-1401.
Mahmoudi, A., Omid, M., Aghagolzadeh, A. & Borghayee, A. M. (2006). Grading of Iranian's export pistachio nuts based on artificial neural networks. International Journal of Agriculture and Biology, 8(3), 371-376.
Panigrahi, S., Logue, C. M., Marchello, M., Doetkott, C., Gu, H., Sherwood, J. & Nolan, L. (2004). Spoilage identification of beef using an electronic nose system. Transactions of the ASAE, 47 (13), 1625–1633.
Salinas, Y., Ros-Lis, J. V., Vivancos, J. L., Dolores Marcos, M., Aucejo, S., Herranz, N. & Lorente, I. (2012). Monitoring of chicken meat freshness by means of a colorimetric sensor array. Analyst, 137(16), 3635–3643.
Sanaeefar, A., Mohtasebi, S. S., Ghasemi Varnamkhasti, M. & Ahmadi, H. (2014). Evaluation of machine olfaction system (electronic nose) based on metal oxide semiconductor (MOS) sensors in detecting aroma fingerprint changes of banana storage. Innovative Food Technologies Journal (JIFT), 1(3), 29-38.
Sanaeifar, A., Mohtasebi, S. S., Ghasemi-Varnamkhasti, M. & Ahmadi, H. (2016). Application of MOS based electronic nose for the prediction of banana quality properties. Measurement, 82, 105–114.
Shao, C., Zheng, H., Ahou, Z., Li, J., Lou, X., Hui, G. & Zhao, Z. (2018). Ridgetail white prawn (Exopalaemon carinicauda) K value predicting method by using electronic nose combined with non-linear data analysis model. Food Analytical Methods, 11 (11), 3121-3129.
Škorpilová, T., Šimoniová, A., Rohlík, B. & Pipek, P. (2013). The use of aconitase for the detection of frozen/thawed poultry meat. Maso International Journal of Food Science and Technology, 1, 73-77.
Sokolova, M. & Lapalme, G. (2009). A systematic analysis of performance measures for classification tasks. International Processing & Management, 45)4(, 427–437.
Timsorn, K., Wongchoosuk, C., Wattuya, P., Promdaen, S. & Sittichat, S. (2014). Discrimination of chicken freshness using electronic nose combined with PCA and ANN. 11th International conference on electrical engineering/electronics, computer, telecommunications and information technology (ECTI-CON). Nakhon Ratchasima, Thailand.
Tohidi, M., Ghasemi- Varnamkhasti, M., Ghafari Niya, V., Mohtasebi, S. S. & Bonyadiyan, M. (2017). Construction and development of an e- nose machine in combination with pattern recognition methods for detecting formalin cheating in raw milk. Iranian Journal of Biosystem Engineering, 47 (4), 761- 770.
Varidi, M. J., Varidi, M, Vajdi, M. & Sharifpour, A. (2018). Design, development and application of electronic nose instrument to rapidly detect spoilage of air, vacuum and modified atmosphere packaged camel minced meat. Iranian Food Science & Technology Institute - Iran Food Science and Technology Society, 15 (74), 213-225.
Winquist, F., Hornsten, E.G., Sundgren, H. & Lundstrom, I. (1993). Performance of an electronic nose for quality estimation of ground meat. Measurement Science and Technology, 4, 1493–1500.
Wu, X., Kumar, V., Quinlan, J. R., Ghosh, J., Yang. Q., Motoda, H., Mclachlan, G., Ng. A., Liu, B., Yu, P., Zhou, Z., Steinbach, M., Hand, D. & Steinberg, D. (2008). Top 10 algorithms in data mining. Journal of Knowl Information System, 14, 1–37.
Xiong, Z., Sun, D. W., Pu, H., Xie, A., Han, Z. & Luo, M. (2015). Non-destructive prediction of thiobarbituric acid reactive substances (TBARS) value for freshness evaluation of chicken meat using hyperspectral imaging. Food Chemistry, 179, 175–181.
_||_ایاری، ف. (1396). توسعه و پیاده سازی سامانه بینی الکترونیک به منظور تشخیص روغن حیوانی گاوی از نوع تقلبی. پایان نامه کارشناسی ارشد مهندسی مکانیک بیوسیستم. دانشگاه رازی. ایران.
شیبانی تذرجی، الف. ( 1394). تشخیص کیفیت و درجه بندی گوشت شترمرغ با استفاده از تکنیک ماشین بینایی. پایان نامه کارشناسی ارشد مهندسی مکانیک بیوسیستم، دانشگاه جیرفت.
صنیعی آباده، م.، محمودی، س. و طاهرپور، م. (1393). داده کاوری کاربردی. انتشارات نیاز دانش.
Arshak, K., Moore, E., Lyons, G. M., Harris, J. & Clifford, S. (2004). A review of gas sensors employed in electronic nose applications. Sensor Review, 24, 181- 198.
Atanassova, S., Stoyanchev, T., Yorgov, D. & Nachev, V. (2018). Differentiation of fresh and frozen-thawed poultry breast meat by near infrared spectroscopy. Bulgarian Journal of Agricultural Science, 24, 162-168.
Ayari, F., Mirzaee- Ghaleh, E., Rabbani, H. & Heidarbeigi, K. (2018a). Using an E-nose machine for detection the adulteration of margarine in cow ghee. Journal of Food Process Engineering, e12806.
Ayari, F., Mirzaee- Ghaleh, E., Rabbani, H. & Heidarbeigi, K. (2018b). Detection of the adulteration in pure cow ghee by electronic nose method (case study: sunflower oil and cow body fat). Inernational Journal of Food Properties, 21 (1), 1670- 1679.
Balasubramanian, S., Panigrahi, S., Logue, C., Marchello, M., Doetkott, C., Gu, H., Sherwood, J. & Nolan, L. (2009). Spoilage identification of beef using an electronic nose system. Transactions of the American Society of Agricultural Engineering, 47(5), 1625–1633.
Beygzadeh, S. & Chizaree, A. (2007). Study of marketing channel and factors affecting marketing margin of potato. Journal of Agricultural Economics and Development, 15 (57), 81-103.
Bothe, D. D. H. & Arnold, J. W. (2002).
Electronic nose analysis of volatile compounds
from poultry meat samples, fresh and after refrigerated storage. Journal of the Science of Food and Agriculture, 82, 315–322.
Changying, L., Heinemannb, P. & Richard, S. (2007). Neural network and Bayesian networkfusion models to fuse electronic nose and surface acoustic wave sensor data for apple defect detection. Sensors and Actuators B: Chemical, 125, 301–310.
Chen, Q., Hui, Zh., Zhao, J. & Ouyang, Q. (2014). Evaluation of chicken freshness using a low-cost colorimetric sensor array with AdaBooste OLDA classification algorithm. LWT – Food Science and Technology, 57(2), 502-507.
Connell, M., Valdora, G., Peltzer, G. & Negri, R. M. (2001). A practical approach for fish freshness determinations using a portable electronic nose. Sensors and Actuators B: Chemical, 80, 149–154.
Darzi, M., Olfat Bakhsh, A., Gorgin, S., Oveisi, F., Hashemi, A. & Alavi, N. (2016). Classification of unbalanced data in the primary diagnosis of breast diseases with adebast methods, probable neural network and K to the nearest neighbor. Iranian Journal of Breast Diseases, 9 (2), 1-12.
Edita R., Darius G., Vinauskienė R., Eisinaitė V., Balčiūnas G., Dobilienė J. & Tamkutė L. (2018). Rapid evaluation of fresh chicken meat quality by electronic nose. Czech Journal of Food Science, 36, 420-426.
El Barbri, N. E., Mirhisse. J., Ionescu, R., El Bari, N., Correig. X., Bouchikhi, B. & Llobet, E. (2009(. An electronic nose system based on a micro-machined gas sensor array to assess the freshness of sardines. Sensors and Actuators B: Chemical, 141(2), 538-543.
Ellerbroek, L.I., Lichtenberg, G. & Weise, E. (1995). Differentiation between fresh and thawed meat by an enzyme profile test. Meat Science, 40, 203- 209.
Fraizer, V. & Vesthof, D. (2010). Food microbiology (5th ed). Translated by Mortazavi, A. University of ferdowsi press. Mashhad. PP, 29-40.
Ghasemi-Varnamkhasti, M., Mohtasebi, S. S., Siadat, M., Lozano, J., Ahmadi, H., Razavi, S. H. & Dicko, A. (2011). Aging fingerprint characterization of beer using electronic nose. Sensors and Actuators B: Chemical, 159, 51-59.
Gram, L., Ravn, L., Rasch, M., Bruhn, J. B., Christensen, A. B. & Givskov, M. (2002). Food spoilage interactions between food spoilage bacteria. Inernational Journal of Food Microbiology, 78(1-2), 79-97.
Heidarbeigi, K., Mohtasebi, S. S., Foroughirad, A., Ghasemi-Varnamkhasti, M, Rafiee, S. & Rezaei, K. (2015). Detection of adulteration in saffron samples using electronic nose. International Journal of Food Properties, 18, 1391-1401.
Mahmoudi, A., Omid, M., Aghagolzadeh, A. & Borghayee, A. M. (2006). Grading of Iranian's export pistachio nuts based on artificial neural networks. International Journal of Agriculture and Biology, 8(3), 371-376.
Panigrahi, S., Logue, C. M., Marchello, M., Doetkott, C., Gu, H., Sherwood, J. & Nolan, L. (2004). Spoilage identification of beef using an electronic nose system. Transactions of the ASAE, 47 (13), 1625–1633.
Salinas, Y., Ros-Lis, J. V., Vivancos, J. L., Dolores Marcos, M., Aucejo, S., Herranz, N. & Lorente, I. (2012). Monitoring of chicken meat freshness by means of a colorimetric sensor array. Analyst, 137(16), 3635–3643.
Sanaeefar, A., Mohtasebi, S. S., Ghasemi Varnamkhasti, M. & Ahmadi, H. (2014). Evaluation of machine olfaction system (electronic nose) based on metal oxide semiconductor (MOS) sensors in detecting aroma fingerprint changes of banana storage. Innovative Food Technologies Journal (JIFT), 1(3), 29-38.
Sanaeifar, A., Mohtasebi, S. S., Ghasemi-Varnamkhasti, M. & Ahmadi, H. (2016). Application of MOS based electronic nose for the prediction of banana quality properties. Measurement, 82, 105–114.
Shao, C., Zheng, H., Ahou, Z., Li, J., Lou, X., Hui, G. & Zhao, Z. (2018). Ridgetail white prawn (Exopalaemon carinicauda) K value predicting method by using electronic nose combined with non-linear data analysis model. Food Analytical Methods, 11 (11), 3121-3129.
Škorpilová, T., Šimoniová, A., Rohlík, B. & Pipek, P. (2013). The use of aconitase for the detection of frozen/thawed poultry meat. Maso International Journal of Food Science and Technology, 1, 73-77.
Sokolova, M. & Lapalme, G. (2009). A systematic analysis of performance measures for classification tasks. International Processing & Management, 45)4(, 427–437.
Timsorn, K., Wongchoosuk, C., Wattuya, P., Promdaen, S. & Sittichat, S. (2014). Discrimination of chicken freshness using electronic nose combined with PCA and ANN. 11th International conference on electrical engineering/electronics, computer, telecommunications and information technology (ECTI-CON). Nakhon Ratchasima, Thailand.
Tohidi, M., Ghasemi- Varnamkhasti, M., Ghafari Niya, V., Mohtasebi, S. S. & Bonyadiyan, M. (2017). Construction and development of an e- nose machine in combination with pattern recognition methods for detecting formalin cheating in raw milk. Iranian Journal of Biosystem Engineering, 47 (4), 761- 770.
Varidi, M. J., Varidi, M, Vajdi, M. & Sharifpour, A. (2018). Design, development and application of electronic nose instrument to rapidly detect spoilage of air, vacuum and modified atmosphere packaged camel minced meat. Iranian Food Science & Technology Institute - Iran Food Science and Technology Society, 15 (74), 213-225.
Winquist, F., Hornsten, E.G., Sundgren, H. & Lundstrom, I. (1993). Performance of an electronic nose for quality estimation of ground meat. Measurement Science and Technology, 4, 1493–1500.
Wu, X., Kumar, V., Quinlan, J. R., Ghosh, J., Yang. Q., Motoda, H., Mclachlan, G., Ng. A., Liu, B., Yu, P., Zhou, Z., Steinbach, M., Hand, D. & Steinberg, D. (2008). Top 10 algorithms in data mining. Journal of Knowl Information System, 14, 1–37.
Xiong, Z., Sun, D. W., Pu, H., Xie, A., Han, Z. & Luo, M. (2015). Non-destructive prediction of thiobarbituric acid reactive substances (TBARS) value for freshness evaluation of chicken meat using hyperspectral imaging. Food Chemistry, 179, 175–181.
