MeshLab is an open source, portable, and extensible system for the processing and editing of unstructured 3D triangular meshes. The system is aimed to help the processing of the typical not-so-small unstructured models arising in 3D scanning, providing a set of tools for editing, cleaning, healing, inspecting, rendering and converting this kind of meshes. The system is heavily based on the VCG library developed at the Visual Computing Lab of ISTI - CNR, for all the core mesh processing tasks and it is available for Windows, MacOSX, and Linux. The MeshLab system started in late 2005 as a part of the FGT course of the Computer Science department of University of Pisa and most of the code ( 15k lines) of the first versions was written by a handful of willing students. The following years FGT students have continued to work to this project implementing more and more features. ...

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  1. Liangliang Nan: Easy3D: a lightweight, easy-to-use, and efficient C++ library for processing and rendering 3D data (2021) not zbMATH
  2. Osezua Ibhadode, Zhidong Zhang, Ali Bonakdar, Ehsan Toyserkani: IbIPP for topology optimization - An Image-based Initialization and Post-Processing code written in MATLAB (2021) not zbMATH
  3. Ping, Yuhan; Wei, Guodong; Yang, Lei; Cui, Zhiming; Wang, Wenping: Self-attention implicit function networks for 3D dental data completion (2021)
  4. Wang, Guangyu; Xu, Gang; Wu, Qing; Wu, Xundong: Two-stage point cloud super resolution with local interpolation and readjustment via outer-product neural network (2021)
  5. Choi, Han-Soo; Gwon, Dalhyeon; Han, Heejae; Kang, Myungjoo: Curvature-weighted surface simplification algorithm using vertex-based geometric features (2020)
  6. Joshua W Steer; Oliver Stocks; Jack Parsons; Peter R Worsley; Alexander S Dickinson: ampscan: A lightweight Python package for shape analysis of prosthetics and orthotics (2020) not zbMATH
  7. Lorenzo, Guillermo; Hughes, T. J. R.; Reali, A.; Gomez, H.: A numerical simulation study of the dual role of (5\alpha)-reductase inhibitors on tumor growth in prostates enlarged by benign prostatic hyperplasia via stress relaxation and apoptosis upregulation (2020)
  8. Maggiordomo, Andrea; Ponchio, Federico; Cignoni, Paolo; Tarini, Marco: \textitReal-World Textured Things: a repository of textured models generated with modern photo-reconstruction tools (2020)
  9. Mendizabal, Andrea; Tagliabue, Eleonora; Brunet, Jean-Nicolas; Dall’Alba, Diego; Fiorini, Paolo; Cotin, Stéphane: Physics-based deep neural network for real-time lesion tracking in ultrasound-guided breast biopsy (2020)
  10. Stutz, David; Geiger, Andreas: Learning 3D shape completion under weak supervision (2020)
  11. von Planta, Cyrill; Vogler, Daniel; Chen, Xiaoqing; Nestola, Maria G. C.; Saar, Martin O.; Krause, Rolf: Modelling of hydro-mechanical processes in heterogeneous fracture intersections using a fictitious domain method with variational transfer operators (2020)
  12. Davis, Alexander L.; Hoover, Alexander P.; Miller, Laura A.: Lift and drag acting on the shell of the American horseshoe crab (\textitLimuluspolyphemus) (2019)
  13. Roussillon, Pierre; Glaunès, Joan Alexis: Representation of surfaces with normal cycles and application to surface registration (2019)
  14. Centin, Marco; Signoroni, Alberto: Advancing mesh completion for digital modeling and manufacturing (2018)
  15. Lin, Xing; Rivenson, Yair; Yardimci, Nezih T.; Veli, Muhammed; Luo, Yi; Jarrahi, Mona; Ozcan, Aydogan: All-optical machine learning using diffractive deep neural networks (2018)
  16. Shankar, Varun; Narayan, Akil; Kirby, Robert M.: RBF-LOI: augmenting radial basis functions (RBFs) with least orthogonal interpolation (LOI) for solving PDEs on surfaces (2018)
  17. Buet, Blanche; Leonardi, Gian Paolo; Masnou, Simon: A varifold approach to surface approximation (2017)
  18. Curtis T. Rueden, Johannes Schindelin, Mark C. Hiner, Barry E. DeZonia, Alison E. Walter, Kevin W. Eliceiri: ImageJ2: ImageJ for the next generation of scientific image data (2017) arXiv
  19. Dhillon, Daljit Singh J.; Milinkovitch, Michel C.; Zwicker, Matthias: Bifurcation analysis of reaction diffusion systems on arbitrary surfaces (2017)
  20. Lehto, Erik; Shankar, Varun; Wright, Grady B.: A radial basis function (RBF) compact finite difference (FD) scheme for reaction-diffusion equations on surfaces (2017)

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