Ye X, Liu H, Chen L, Chen Z, Pan X, Zhang S (2008) Reverse innovative design-an integrated product design methodology. Labatut P, Pons J-P, Keriven R (2009) Robust and efficient surface reconstruction from range data. Comput Vision Image Underst 113(11):1130–1146ĭi Angelo L, Di Stefano P, Giaccara L (2011) A new mesh growing algorithm for fast surface reconstruction. Robot Comput-Integr Manuf 26:403–413Ĭhang M-C, Fol Leymarie F, Kimia BB (2009) Surface reconstruction from point clouds by transforming the medial scaffold. Comput-Aided Des 43(2):188–206īi ZM, Wang L (2010) Advances in 3D data acquisition and processing for industrial applications. doi: 10.3390/s90100568īarbero BR, Ureta ES (2011) Comparative study of different digitization techniques and their accuracy. Sansoni G, Trebeschi M, Docchio F (2009) State-of-the-art and applications of 3D imaging sensors in industry, cultural heritage, medicine and criminal investigation. In: 2nd international conference on innovations, recent trends and challenges in mechatronics, mechanical engineering and new high-tech products development MECAHITECH, 23–24 Sept 2010, Bucharest Hieu LC, Sloten JV, Hung LT, Khanh L, Soe S, Zlatov N, Phuoc LT, Trung PD (2010) Medical reverse engineering applications and methods. In: Proceedings on the future of software engineering, pp 47–60 Müller HA, Jahnke JH, Smith DB, Storey M-AD, Tilley SR, Wong K (2000) Reverse engineering: a roadmap. Raja V, Fernandes KJ (eds) (2008) Reverse engineering-an industrial perspective. In: Raja V, Fernandes KJ (eds) Reverse engineering-an industrial perspective, Springer, London, pp 1–9 Raja V (2008) Introduction to reverse engineering. In: Raja V, Fernandes KJ (eds) Reverse engineering-an industrial perspective, Springer, London, pp 33–70 Pham DT, Hieu LC (2008) Reverse engineering–hardware and software. Wang W (2011) Reverse engineering-technology of reinvention. KeywordsĬhikofsky E, Cross J II (1990) Reverse engineering and design recovery: a taxonomy. Reverse engineering methods are applied in many different areas, ranging from mechanical engineering, architecture, cultural heritage preservation, terrain capture, astronomy, entertainment industry to medicine and dentistry. Reverse engineering focuses not only on the reconstruction of the shape and fit, but also on the reconstruction of physical properties of materials and manufacturing processes. Many commercial vendors offer sensors, software and/or complete integrated systems. Leading CAD software packages include special modules for such tasks. Finally, in most cases, the digitized objects must be refined by using the CAD software to gain CAD models of optimal quality which are needed in the downstream processes. The rebuild phase is internal processing of data into conventional 3D CAD and animation geometry data, such as NURBS and polygon sets. Sensing technologies are based on tracking, imaging, and range finding or their combination. The sensing phase collects or captures raw data and generates initial geometry data, usually as a 2D boundary object, or a 3D point cloud. The process of 3D digitizing basically consists of a sensing phase followed by a rebuild phase. A variety of commercially available technologies can be used to digitize objects at the molecular scale but also multi-storey buildings or even planets and stars. One of the most time-consuming aspects of creating 3D virtual models is the generation of geometric models of objects, in particular if the virtual model is derived (digitized) from a physical version of the object.
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