2016-11-3020021137-7704http://hdl.handle.net/10784/9795Surface or shape reconstruction from 3D digitizations performed in planar samplings are frequent in product design, reverse engineering, rapid prototyping, medical and artistic applications, etc -- The planar slicing of the object offers an opportunity to recover part of the neighborhood information essential to reconstruct the topological 2-manifold embedded in R3 that approximates the object surface -- Next stages of the algorithms find formidable obstacles that are classified in this investigation by the following taxonomy: (i) Although real objects have manifold boundaries, in objects with thin sections or walls, the manifold property remains in the data sample only at the price of very small sampling intervals and large data sets -- For relaxed sampling rates nonmanifold situations are likely -- (ii) The position of the planar slices may produce an associated level function which is non – Morse -- This for example allows the set of critical points of the associated level function to contain one or even two dimensional pieces -- The fact that the Hessian matrix at critical points is non-singular is the Morse condition (as a consequence, critical points are isolated), and allows for the algorithms presented here -- (iii) For Morse condition, the slicing interval may be such that several critical points occur between immediate slices (non- simple condition) -- This article presents the degenerate cases arising from points (i)-(iii) and discusses a shape reconstruction algorithm for digitizations holding the Morse – simple condition -- It presents the results of applying the prescribed algorithms to data sets, and discusses future actions that enlarge the mentioned scopeapplication/pdfenginfo:eu-repo/semantics/closedAccessinfo:eu-repo/semantics/articleDESARROLLO DE PROTOTIPOSTEORÍA DE MORSEISOMORFISMO (MATEMÁTICAS)VARIEDADES (MATEMÁTICAS)IMAGEN TRIDIMENSIONAL EN DISEÑOPrototype developmentMorse theoryIsomorphisms (Mathematics)Manifolds (Mathematics)Design imagingPrototype developmentMorse theoryIsomorphisms (Mathematics)Manifolds (Mathematics)Design imagingGeometría computacionalReconstrucción superficialIngeniería inversaAcceso cerrado2016-11-30Ruíz, Óscar EduardoCadavid, Carlos AlbertoGranados, Miguel