Optimal lofted B-spline surface interpolation based on serial closed contours
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Modern shape design and capture techniques often lead to the geometric data presented in the form of serial rows of data points. In general, the number of data points varies from row to row. Lofted or skinned B-spline surface interpolation is a technique that generates a B-spline surface that passes through these data points precisely. The traditional process often causes a large increase in the number of control points of the resulting B-spline surface. Much of the work to date in mitigating the effects of this increase has been restricted to open section-curves. The lofting of sequential closed contours using the interpolation technique has not been addressed in the existing literature. In this paper, we present two novel conjectures relating to closed B-spline curve interpolation. We derive the equivalent closed B-spline interpolation condition of the well-established Schoenberg-Whitney condition for open B-spline interpolation, a condition that the parameter values and the domain knots should satisfy to guarantee the system matrix is always invertible or full-rank. We then apply the interpolation condition to the problem of lofted B-spline surface interpolation to serial closed contours. The correctness of these conjectures is validated via numerical results and several practical experiments. Github repository https://github.com/ShutaoTang/LBSI-Project
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