REFERENCES
- Hui, Y. H. Major tropical fruits and products: Banana, mango, and pineapple. In: Handbook of Food Products Manufacturing; Po, L.G.; Ed.; John Wiley & Sons, Inc.: Hoboken, NJ, 2006; 816–845.
- Food and Agriculture Organization. FAO statistical databases, 2006. http://faostat3.fao.org/home/index.html.
- Tabatabaeefar, A.; Vefagh-Nematolahee, A.; Rajabipour, A. Modeling of orange mass based on dimensions. Journal of Agricultural Science and Technology 2000, 2 (4), 299–305.
- Steffens, C.; Franceschi, E.; Corazza, F.C.; Herrmann, P.S.P.; Oliveira, J.V. Gas sensors development using supercritical fluid technology to detect the ripeness of bananas. Journal of Food Engineering 2010, 101 (4), 365–369.
- Zulhusin, Aziz. A.H.A.; Ahmad, R.B. Feasibility study of a non-destructive fruit maturity testing system on banana utilizing capacitive properties. International Conference on Electronic Design, Penang, Malaysia, December 1–3, 2008; 1–4.
- Rajkumar, P.; Wang, N.; Elmasry, G.; Raghavan, G.S.V.; Gariepy, Y. Studies on banana fruit quality and maturity stages using hyperspectral imaging. Journal of Food Engineering 2012, 108 (1), 194–200.
- Mendoza, F.; Aguilera, J.M. Application of image analysis for classification of ripening bananas. Journal of Food Science 2004, 69 (9), 471–477.
- Subedi, P.P.; Walsh, K.B. Non-invasive techniques for measurement of fresh fruit firmness. Postharvest Biology and Technology 2009, 51 (3), 297–304.
- Xu, L.M.; Zhao, Y.C. Automated strawberry grading system based on image processing. Computers and Electronics in Agriculture 2010, 71, 32–39.
- Radojević, R.L.; Petrović, D.V.; Pavlović, V.B.; Nikolić, Z.M.; Urošević, M.P. Digital parameterization of apple fruit size, shape, and surface spottiness. African Journal of Agricultural Research 2011, 6 (13), 3131–3142.
- Li, X.F.; Zhu, W.X. Apple grading method based on features fusion of size, shape, and color. Procedia Engineering 2011, 15, 2885–2891.
- Rashidi, M.; Keyvan, S. Classification of fruit shape in cantaloupe using the analysis of geometrical attributes. World Journal of Agricultural Sciences 2007, 3 (6), 735–740.
- Sadrnia, H.; Rajabipour, A.; Jafary, A.; Javadi, A.; Mostofi, Y. Classification and analysis of fruit shapes in long type watermelon using image processing. International Journal of Agriculture and Biology 2007, 1, 68–70.
- Fellegari, R.; Navid, H. Determining the orange volume using image processing. 2011 International Conference on Food Engineering and Biotechnology; IPCBEE, Singapore, September 28–30, 2011; 180–184.
- Omid, M.; Khojastehnazhand, M.; Tabatabaeefar, A. Estimating volume and mass of citrus fruits by image processing technique. Journal of Food Engineering 2010, 100 (2), 315–321.
- Rashidi, M.; Gholami, M. Determination of kiwifruit volume using ellipsoid approximation and image-processing methods. International Journal of Agriculture and Biology 2008, 10 (4), 375–380.
- Sabliov, C.M.; Boldor, D.; Keener, K.M.; Farkas, B.E. Image processing method to determine surface area and volume of axi-symmetric agricultural products. International Journal of Food Properties 2002, 5 (3), 641–653.
- Jarimopas, B.; Jaisin, N. An experimental machine vision system for sorting sweet tamarind. Journal of Food Engineering 2008, 89 (3), 291–297.
- Mustafa, N.B.A.; Fuad, N.A.; Ahmed, S.K.; Abidin, A.A.Z.; Ali, Z.; Yit, W.B.; Sharrif, Z.A.M. Image processing of an agriculture produce: Determination of size and ripeness of a banana. International Symposium of Information Technology 2008, Vol. 1–4, Proceedings: Cognitive Informatics: Bridging Natural and Artificial Knowledge, Kuala Lumpur, Malaysia, August 26–29 2008; 733–739.
- Codex Alimentarius Commission. Codex Standard for Banana 2005.
- Soltani, M.; Alimardari, R.; Omid, M. Modeling the main physical properties of banana fruit based on geometrical attributes. International Journal of Multidisciplinary Sciences and Engineering 2011, 2 (2), 1–6.
- Chen, H.B.; Li, J.G.; Feng, Q.R.; Xu, C.X.; Yang, H.N.; Lu, S. Evaluation of fruit characteristics of 28 cavendish subgroup banana cultivars (Musa spp., AAA Group). Journal of South China Agriculture University 2004, 25 (4), 6–11. ( In Chinese with English Abstract).
- Cubero, S.; Aleixos, N.; Moltó, E.; Gómez-Sanchis, J.; Blasco, J. Advances in machine vision applications for automatic inspection and quality evaluation of fruits and vegetables. Food and Bioprocess Technology 2011, 4 (4), 487–504.
- Codex Alimentarius Commission. Quality Standards for Banana 1994.
- Russ, J.C. The Image Processing Handbook, CRC Press: Boca Raton, FL, 2011; 498–503.
- Du, C.J.; Sun, D.W. Estimating the surface area and volume of ellipsoidal ham using computer vision. Journal of Food Engineering 2006, 73 (3), 260–268.
- Blasco, J.; Aleixos, N.; Moltó, E. Machine vision system for automatic quality grading of fruit. Biosystems Engineering 2003, 85 (4), 415–423.
- Batchelor, M.M.; Searcy, S.W. Computer vision determination of the stem/root joint on processing carrots. Journal of Agricultural Engineering Research 1989, 43, 259–269.
- Mendoza, F.; Dejmek, P.; Aguilera, J.M. Calibrated color measurements of agricultural foods using image analysis. Postharvest Biology and Technology 2006, 41 (3), 285–295.
- Kang, S.P.; East, A.R.; Trujillo, F.J. Colour vision system evaluation of bicolour fruit: a case study with “B74” mango. Postharvest Biology and Technology 2008, 49 (1), 77–85.
- Petrozzo, R.A.; Singer, S.W. Telecentric lenses simplify non-contact metrology. Test & Measurement World 2001, 21 (13), 4–99.
- Wilson, A. Telecentric lenses focus on machine vision. Vision Systems Design 2004, 9 (1), 37–41.
- Du, C.J.; Sun, D.W. Recent developments in the applications of image processing techniques for food quality evaluation. Trends in Food Science & Technology 2004, 15 (5), 230–249.
- Mendoza, F.; Dejmek, P.; Aguilera, J.M. Predicting ripening stages of bananas (Musa cavendish) by computer vision. Proceedings of the 5th International Postharvest Symposium, Verona, Italy, June 6–11, 2005, Vol. 1–3 (682); 1363–1369.