Res. Agr. Eng., 2020, 66(1):1-7 | DOI: 10.17221/13/2019-RAE

Dielectric technique combined with artificial neural network and support vector regression in moisture content prediction of oliveOriginal Paper

Mahdi Rashvand1, Mahmoud Soltani Firouz*,2
1 Department of Machine Design and Mechatronics, Institute of Mechanics, Iranian Research Organization for Science and Technology, Tehran, Iran
2 Department of Mechanics of Agricultural Machinery, Faculty of Agricultural Engineering and Technology, University of Tehran, Karaj, Iran

Olives are one of the most important agriculture crops in the world, which are harvested in different stages of growth for various uses. One of the ways to detect the adequate time to process the olives is to determine their moisture content. In this study, to determine the moisture content of olives, a dielectric technique was used in seven periods of harvesting and three different varieties of olive including Oily, Mary and Fishemi. The dielectric properties of the olive fruits were measured using an electronic device in the range of 0.1-30 MHz. Artificial Neural Network (ANN) and Support Vector Regression (SVR) methods were applied to develop the prediction models by using the obtained data acquired by the system. The best results (R = 0.999 and MSE = 0.014) were obtained by the ANN model with a topology of 384-12-1 (384 features in the input vector, 12 neurons in the hidden layer and 1 output). The results obtained indicated the acceptable accuracy of the dielectric technique combined with the ANN model.

Keywords: capacitive sensor; data mining; estimation; quality factor

Published: March 31, 2020  Show citation

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Rashvand M, Soltani Firouz M. Dielectric technique combined with artificial neural network and support vector regression in moisture content prediction of olive. Res. Agr. Eng. 2020;66(1):1-7. doi: 10.17221/13/2019-RAE.
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    References

    1. Afzal A., Mousavi S.F., Khademi M. (2010): Estimation of leaf moisture content by measuring the capacitance. Jornal of Agriculture Science Technology, 12: 339-346.
    2. Alowaiesh B., Singh, Z., Kailis, S.G. (2016): Harvesting time influences fruit removal force, moisture, oil content, free fatty acids and peroxide in the oil of Frantoio and Manzanilla olive cultivars. Australian Journal of Crop Science, 11: 1662. Go to original source...
    3. Berbert P.A., Viana A.P., Dionello R.G., Carlesso V.O. (2004): Three dielectric models for estimating common bean moisture content. Drying Proceedings of the 14th International Drying Symposium. Sao Paulo, Brazil, Aug 22-25, 2004: 1502-1509.
    4. Bernardi B., Benalia S., Fazari A., Zimbalatti G., Stillitano T., De Luca A.I.(2016): Mechanical harvesting in traditional olive orchards: oli-picker case study. Agronomy Research, 14: 683-688.
    5. Bernardi B., Falcone G., Stillitano T., Benalia S., Strano A., Bacenetti J., De Luca A.I. (2018): Harvesting system sustainability in Mediterranean olive cultivation. Science of the Total Environment, 625: 1446-1458. Go to original source... Go to PubMed...
    6. Castro-Garcia S., Castillo-Ruiz F.J., Jimenez-Jimenez F., Gil-Ribes J.A., Blanco-Roldan G.L. (2015): Suitability of Spanish 'Manzanilla' table olive orchards for trunk shaker harvesting. Biosystems Engineering, 129: 388-395. Go to original source...
    7. Guo W., Zhu X., Nelson S.O., Yue R., Liu H., Liu Y. (2011): Maturity effects on dielectric properties of apples from 10 to 4500 MHz. LWT-Food Science and Technology, 44: 224-230. Go to original source...
    8. Hao F., Lu L., Wang J. (2017): Finite element analysis of moisture migration of multicomponent foods during storage. Journal of Food Process Engineering, 40: e12319. doi: 10.1111/jfpe.12319 Go to original source...
    9. Ismail K.M., Alyahya S.A. (2003): A quick method for measuring date moisture content. Transaction of ASAE, 46: 401-405. Go to original source...
    10. Jurado-Ruiz E., Varela L.M., Luque A., Berná G., Cahuana G., Martinez-Force E., Martín, F. (2017): An extra virgin olive oil rich diet intervention ameliorates the nonalcoholic steatohepatitis induced by a high-fat "Western-type" diet in mice. Molecular Nutrition & Food Research, 61: 1770034. Go to original source...
    11. Leone A., Romaniello R., Tamborrino A., Catalano P., Peri, G. (2015): Identification of vibration frequency, acceleration, and duration for efficient olive harvesting using a trunk shaker. Transactions of the ASABE, 58: 19-26. Go to original source...
    12. López-López A., Bautista-Gallego J., Moreno-Baquero J.M., Garrido-Fernández A. (2016): Fermentation in nutrient salt mixtures affects green Spanish-style Manzanilla table olive characteristics. Food Chemistry, 211: 415-422. Go to original source... Go to PubMed...
    13. Luque-Sierra A., Alvarez-Amor L., Kleemann R., Martín F., Varela L.M. (2018): Extra-virgin olive oil with natural phenolic content exerts an anti-inflammatory effect in adipose tissue and attenuates the severity of atherosclerotic lesions in Ldlr-/- Leiden mice. Molecular Nutrition & Food Research, 1800295. Go to original source...
    14. Nelson S. (2015): Dielectric properties of agricultural materials and their applications. Boston, Elsevier - Academic Press: 292. Go to original source...
    15. O'Kelly B.C, Sivakumar V. (2014): Water content determinations for peat and other organic soils using the oven-drying method. Drying Technology, 32: 631-643. Go to original source...
    16. Osman A.M., Savoie P., Grenier D. (2003): Measurement of moisture in hay and forage with a capacitance-type sensor. Electronic-only Proceedings of the International Conference on Crop Harvesting and Processing: 9-11.
    17. Pan L., Zhang Q., Zhang W., Sun Y., Hu P., Tu K. (2016): Detection of cold injury in peaches by hyperspectral reflectance imaging and artificial neural network. Food Chemistry, 192: 134-141. Go to original source... Go to PubMed...
    18. Rashvand M., Omid M., Mobli H., Firouz M.S. (2016): Adulteration detection in olive oil using dielectric technique and data mining. Sensing and Bio-Sensing Research, 11: 33-36. Go to original source...
    19. Rashvand M., Omid M., Mobli H., Soltani M. (2017): Evaluation of an adulteration detection system of olive oil based on machine vision and dielectric spectroscopy. Journal of Researches in Mechanics of Agricultural Machinery, 6: 19-29
    20. Reyes A., Yarlequé M., Castro W., Chuquizuta S. (2017): Determination of dielectric properties of the red delicious apple and its correlation with quality parameters. In: Progress in Electromagnetics Research Symposium-Fall (PIERS-FALL). IEEE, 2017: 2067-2072. Go to original source...
    21. Rigacci S., Stefani M. (2016): Nutraceutical properties of olive oil polyphenols. An itinerary from cultured cells through animal models to humans. International Journal of Molecular Sciences, 17: 843-870. Go to original source... Go to PubMed...
    22. Schmilovitch Z., Hoffman A., Egozi H., Grinshpun J. (2006): Determination of single-date water content by a Novel RF device. Transaction of ASAE, 22: 401-405. Go to original source...
    23. Soltani M., Alimardani R. (2011): moisture dependent dielectric properties of pea and black-eyed pea. Journal of American Science, 7: 60-64.
    24. Wijewardane N.K., Ge Y., Morgan C.L. (2016): Moisture insensitive prediction of soil properties from VNIR reflectance spectra based on external parameter orthogonalization. Geoderma, 267: 92-101. Go to original source...
    25. Yeow Y., Abbas Z., Khalid K. (2010): Application of microwave moisture sensor for determination of oil palm fruit ripeness. Measurement Science Review, 10: 7-14. Go to original source...
    26. Yousefi A.R. (2017): Estimation of papaw (Carica papaw L.) moisture content using adaptive neuro-fuzzy inference system (ANFIS) and genetic algorithm-artificial neural network (GA-ANN). Iranian Food Science and Technology Research Journal, 12: 767-779.
    27. Zhang J., Song W., Jiang B., Li M. (2018): Measurement of lumber moisture content based on PCA and GSSVM. Journal of Forestry Research, 29: 557-564. Go to original source...
    28. Zhu X., Guo W., Wu X., Wang S. (2012): Dielectric properties of chestnut flour relevant to drying with radio frequency and microwave energy. Journal of Food Engineering, 113: 143- 150. Go to original source...
    29. Zipori I., Bustan A., Kerem Z., Dag A. (2016): Olive paste oil content on a dry weight basis (OPDW): an indicator for optimal harvesting time in modern olive orchards. Grasas y Aceites, 67: 137-136. Go to original source...

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