Dan Li scite author profile

We consolidate an unorganized point cloud with noise, outliers, non-uniformities, and in particular interference between close-by surface sheets as a preprocess to surface generation, focusing on reliable normal estimation. Our algorithm includes two new developments. First, a weighted locally optimal projection operator produces a set of denoised, outlier-free and evenly distributed particles over the original dense point cloud, so as to improve the reliability of local PCA for initial estimate of normals. Next, an iterative framework for robust normal estimation is introduced, where a priority-driven normal propagation scheme based on a new priority measure and an orientation-aware PCA work complementarily and iteratively to consolidate particle normals. The priority setting is reinforced with front stopping at thin surface features and normal flipping to enable robust handling of the close-by surface sheet problem. We demonstrate how a point cloud that is wellconsolidated by our method steers conventional surface generation schemes towards a proper interpretation of the input data.

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Lysine-PEG-modified polyurethane as a fibrinolytic surface: Effect of PEG chain length on protein interactions, platelet interactions and clot lysis

Chen

McClung

et al. 2009

Acta Biomaterialia

107

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A correlation study of protein adsorption and cell behaviors on substrates with different densities of PEG chains

Sun

Deng

Tang

et al. 2014

Colloids and Surfaces B: Biointerfaces

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Combining surface topography with polymer chemistry: exploring new interfacial biological phenomena

Zheng

Wang

et al. 2014

Polym. Chem.

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Dan Li

Consolidation of unorganized point clouds for surface reconstruction

Lysine-PEG-modified polyurethane as a fibrinolytic surface: Effect of PEG chain length on protein interactions, platelet interactions and clot lysis

A correlation study of protein adsorption and cell behaviors on substrates with different densities of PEG chains

Combining surface topography with polymer chemistry: exploring new interfacial biological phenomena

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