Reverse Engineering in Modeling Agricultural Products

Ameen, W., Al-Ahmari, A.M., Mian, S.H. (2018). Evaluation of handheld scanners for automotive applications. Applied Sciences, 8(2), 217.10.3390/app8020217 Search in Google Scholar

Bochnia, J. (2019). The use of 3D scanning in reverse engineering. Mechanik, 3/2019, 194-196.10.17814/mechanik.2019.3.27 Search in Google Scholar

Burek, J., Jamuła, B., Flejszar, R. (2019). Analysis of the accuracy of the reproduction of the solid model from the parametric surface in the module Reverse Engineering NX system. Mechanik, 7, 468-470.10.17814/mechanik.2019.7.59 Search in Google Scholar

Celik, H.K., Rennie, A.E.W., Akinci, I. (2017). Reverse engineering approach for precise measurement of the physical attributes related to the geometric features of agricultural products. Food Measure, 11(1), 75-84.10.1007/s11694-016-9373-5 Search in Google Scholar

Costa, C., Antonucci, F., Pallottino, F., Aguzzi, J., Sun, D.W., Menesatti, P. (2011). Shape analysis of agricultural aroducts: A review of recent research advances and potential application to computer vision. Food and Bioprocess Technology, 4(5), 673-692.10.1007/s11947-011-0556-0 Search in Google Scholar

Dubravcik, M., Kender, S. (2012). Application of reverse engineering techniques in mechanics system services. Procedia Engineering, 48, 96-104.10.1016/j.proeng.2012.09.491 Search in Google Scholar

Gapinski, B., Wieczorowski, M., Marciniak-Podsadna, L., Dybala, B., Ziolkowski, G. (2014). Comparison of different method of measurement geometry using CMM, optical scanner and computed tomography 3D. Procedia Engineering, 69, 255-262.10.1016/j.proeng.2014.02.230 Search in Google Scholar

Kovacs, I., Varady, T., Salvi, P. (2015). Applying geometric constraints for perfecting CAD models in reverse engineering. Graphical Models, 82, 44-57.10.1016/j.gmod.2015.06.002 Search in Google Scholar

Pieróg, B.,Filipowicz, K., Pajor, M. (2020). Making copies of religious culture relics using reverse engineering. Mechanik, 4, 16-19.10.17814/mechanik.2020.4.10 Search in Google Scholar

Sikorski, S., Duda, P., Dulęba, K., Wróbel, Z. (2016). Reverse engineering in modeling of hip replacement. Mechanik, 12, 1912-1913.10.17814/mechanik.2016.12.549 Search in Google Scholar

Sokovic, M., Kopac, J. (2006). RE (reverse engineering) as necessary phase by rapid product development. Journal of Materials Processing Technology, 175(1-3), 398-403.10.1016/j.jmatprotec.2005.04.047 Search in Google Scholar

Vagovsky, J., Buransky, I., Gorog, A. (2015). Evaluation of measuring capability of the optical 3D scanner. Procedia Engineering, 100, 1198-1206.10.1016/j.proeng.2015.01.484 Search in Google Scholar

Wang, J., Gu, DX., Yu, ZY., Tan, CB., Zhou, LS. (2012). A framework for 3D model reconstruction in reverse engineering. Computers & Industrial Engineering, 63(4), 1189-1200.10.1016/j.cie.2012.07.009 Search in Google Scholar

Ye, XZ., Liu, HZ., Chen, L., Chen, ZY., Pan, X., &Zhang, SY. (2008). Reverse innovative design - an integrated product design methodology. Computer-Aided Design, 40(7), 812-827.10.1016/j.cad.2007.07.006 Search in Google Scholar