Haasdonk, B.; Ohlberger, M.; Rumpf, M.; Schmidt, Alfred; Siebert, K. G. Multiresolution visualization of higher-order adaptive finite element simulations. (English) Zbl 1024.76038 Computing 70, No. 3, 181-204 (2003). Summary: We propose an appropriate and efficient multiresolution visualization method for piecewise-higher order polynomial data on locally refined computational grids. Given some suitable error indicators, we efficiently extract a continuous \(h\)-\(p\)-adaptive projection with respect to any prescribed threshold value for the visual error. This projection can then be processed by various local rendering methods, e.g. color coding of data or isosurface extraction. Especially for color coding purposes, modern texture capabilities are used to directly render higher polynomial data by superposition of polynomial basis function textures and final color look-up tables. Numerical experiments from CFD clearly demonstrate the applicability and efficiency of our approach. Cited in 1 Document MSC: 76M27 Visualization algorithms applied to problems in fluid mechanics 76M10 Finite element methods applied to problems in fluid mechanics Keywords:multiresolution visualization; piecewise higher-order polynomial data; \(h\)-\(p\) adaptive projection; error indicator; adaptive finite element simulations; color coding Software:ALBERT PDFBibTeX XMLCite \textit{B. Haasdonk} et al., Computing 70, No. 3, 181--204 (2003; Zbl 1024.76038)