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David Levin
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2020 – today
- 2024
- [j44]David Levin:
Constructing Approximations to Bivariate Piecewise-Smooth Functions. Axioms 13(7): 428 (2024) - [j43]David Levin, Gonen Singer:
GB-AFS: graph-based automatic feature selection for multi-class classification via Mean Simplified Silhouette. J. Big Data 11(1): 79 (2024) - [i15]David Levin:
Constructing Approximations to Bivariate Piecewise-Smooth Functions. CoRR abs/2405.06462 (2024) - 2023
- [j42]Sergio Amat, David Levin, Juan Ruiz-Álvarez
, Dionisio F. Yáñez
A new B-spline type approximation method for non-smooth functions. Appl. Math. Lett. 141: 108628 (2023) - [j41]Shira Faigenbaum-Golovin, David Levin:
Manifold reconstruction and denoising from scattered data in high dimension. J. Comput. Appl. Math. 421: 114818 (2023) - [i14]Sergio Amat, David Levin, Juan Ruiz-Álvarez
Non-linear WENO B-spline based approximation method. CoRR abs/2308.06153 (2023) - [i13]David Levin, Gonen Singer:
Graph-Based Automatic Feature Selection for Multi-Class Classification via Mean Simplified Silhouette. CoRR abs/2309.02272 (2023) - 2022
- [j40]Sergio Amat, David Levin, Juan Ruiz-Álvarez
Explicit multivariate approximations from cell-average data. Adv. Comput. Math. 48(6): 85 (2022) - [j39]Anat Amir, David Levin, Francis J. Narcowich, Joseph D. Ward:
Meshfree Extrapolation with Application to Enhanced Near-Boundary Approximation with Local Lagrange Kernels. Found. Comput. Math. 22(1): 1-34 (2022) - [j38]Sergio Amat, David Levin, Juan Ruiz-Álvarez
A class of C2 quasi-interpolating splines free of Gibbs phenomenon. Numer. Algorithms 91(1): 51-79 (2022) - [i12]Sergio Amat, David Levin, Juan Ruiz-Álvarez, Dionisio F. Yáñez:
Global and explicit approximation of piecewise smooth 2D functions from cell-average data. CoRR abs/2201.10823 (2022) - [i11]Qusay Muzaffar, Nira Dyn, David Levin:
Interpolation of Set-Valued Functions. CoRR abs/2208.14929 (2022) - 2021
- [j37]Barak Sober, Yariv Aizenbud, David Levin:
Approximation of functions over manifolds: A Moving Least-Squares approach. J. Comput. Appl. Math. 383: 113140 (2021) - [j36]Nira Gruberger
Two algorithms for periodic extension on uniform grids. Numer. Algorithms 86(2): 475-494 (2021) - [i10]Shira Faigenbaum-Golovin, David Levin:
Manifold Repairing, Reconstruction and Denoising from Scattered Data in High-Dimension. CoRR abs/2102.01750 (2021) - [i9]Sergio Amat, David Levin, Juan Ruiz-Álvarez, Dionisio F. Yáñez:
Explicit multivariate approximations from cell-average data. CoRR abs/2112.10119 (2021) - 2020
- [j35]David Levin:
Reconstruction of Piecewise Smooth Multivariate Functions from Fourier Data. Axioms 9(3): 88 (2020) - [c19]Evan M. Williams, David Levin, Ian McCulloh:
Improving LDA Topic Modeling with Gamma and Simmelian Filtration. ASONAM 2020: 692-696 - [i8]David Levin:
Reconstruction of piecewise-smooth multivariate functions from Fourier data. CoRR abs/2004.05579 (2020) - [i7]Sergio Amat, David Levin, Juan Ruiz-Álvarez:
Corrected approximation strategy for piecewise smooth bivariate functions. CoRR abs/2012.01552 (2020) - [i6]Sergio Amat, David Levin, Juan Ruiz-Álvarez:
Corrected subdivision approximation of piecewise smooth functions. CoRR abs/2012.01575 (2020) - [i5]Shira Faigenbaum-Golovin, David Levin:
Manifold Reconstruction and Denoising from Scattered Data in High Dimension via a Generalization of L1-Median. CoRR abs/2012.12546 (2020) - [i4]Shira Faigenbaum-Golovin, David Levin:
Approximation of Functions on Manifolds in High Dimension from Noisy Scattered Data. CoRR abs/2012.13804 (2020)
2010 – 2019
- 2019
- [j34]Nira Dyn, Ron Goldman, David Levin:
High order smoothness of non-linear Lane-Riesenfeld algorithms in the functional setting. Comput. Aided Geom. Des. 71: 119-129 (2019) - [c18]Shira Faigenbaum-Golovin, David Levin, Eli Piasetzky, Israel Finkelstein:
Writer Characterization and Identification of Short Modern and Historical Documents: Reconsidering Paleographic Tables. DocEng 2019: 23:1-23:4 - 2018
- [j33]Anat Amir, David Levin:
High order approximation to non-smooth multivariate functions. Comput. Aided Geom. Des. 63: 31-65 (2018) - [j32]Anat Amir
Quasi-interpolation and outliers removal. Numer. Algorithms 78(3): 805-825 (2018) - 2017
- [j31]Barak Sober
Computer aided restoration of handwritten character strokes. Comput. Aided Des. 89: 12-24 (2017) - [i3]Barak Sober, Yariv Aizenbud, David Levin:
Approximation of Functions over Manifolds: A Moving Least-Squares Approach. CoRR abs/1711.00765 (2017) - 2016
- [i2]Barak Sober, David Levin:
Computer Aided Restoration of Handwritten Character Strokes. CoRR abs/1602.07038 (2016) - [i1]Barak Sober, David Levin:
Manifolds' Projective Approximation Using The Moving Least-Squares (MMLS). CoRR abs/1606.07104 (2016) - 2015
- [j30]Javad Abdalkhani, David Levin:
On the choice of β in the u - transformation for convergence acceleration. Numer. Algorithms 70(1): 205-213 (2015) - 2014
- [j29]Sigalit Hed, David Levin:
A 'subdivision regression' model for data analysis. Int. J. Comput. Math. 91(8): 1683-1712 (2014) - [j28]Zohar Levi, David Levin:
Shape Deformation via Interior RBF. IEEE Trans. Vis. Comput. Graph. 20(7): 1062-1075 (2014) - [c17]Nira Gruberger, David Levin:
Basis Functions for Scattered Data Quasi-Interpolation. Curves and Surfaces 2014: 263-271 - [c16]Yael Kagan, David Levin:
High Order Reconstruction from Cross-Sections. Curves and Surfaces 2014: 289-303 - 2012
- [c15]Craig Partridge, Robert Walsh, Matthew Gillen, Gregory Lauer, John Lowry, W. Timothy Strayer, Derrick Kong, David Levin, Joseph P. Loyall, Michael Paulitsch:
A secure content network in space. CHANTS@MobiCom 2012: 43-50 - 2011
- [j27]Sigalit Hed, David Levin:
Subdivision models for varying-resolution and generalized perturbations. Int. J. Comput. Math. 88(17): 3709-3749 (2011) - [j26]Arieh Iserles, David Levin:
Asymptotic expansion and quadrature of composite highly oscillatory integrals. Math. Comput. 80(273): 279-296 (2011) - 2010
- [j25]Zheng Li, David Levin, Zhengjie Deng, Dingyuan Liu, Xiaonan Luo:
Cage-free local deformations using green coordinates. Vis. Comput. 26(6-8): 1027-1036 (2010)
2000 – 2009
- 2009
- [j24]Ziv Ayalon, Nira Dyn, David Levin:
Piecewise L-splines of order 4: Interpolation and L2 error bounds for splines in tension. J. Approx. Theory 161(2): 421-431 (2009) - 2008
- [j23]Yaron Lipman, David Levin, Daniel Cohen-Or:
Green Coordinates. ACM Trans. Graph. 27(3): 78 (2008) - 2007
- [j22]Nira Dyn, David Levin, Jungho Yoon:
Analysis of Univariate Nonstationary Subdivision Schemes with Application to Gaussian-Based Interpolatory Schemes. SIAM J. Math. Anal. 39(2): 470-488 (2007) - [j21]Yaron Lipman, Daniel Cohen-Or, Ran Gal, David Levin:
Volume and shape preservation via moving frame manipulation. ACM Trans. Graph. 26(1): 5 (2007) - [j20]Yaron Lipman, Daniel Cohen-Or, David Levin, Hillel Tal-Ezer:
Parameterization-free projection for geometry reconstruction. ACM Trans. Graph. 26(3): 22 (2007) - [c14]Yaron Lipman, Daniel Cohen-Or, David Levin:
Data-dependent MLS for faithful surface approximation. Symposium on Geometry Processing 2007: 59-67 - [c13]Yaron Lipman, Johannes Kopf, Daniel Cohen-Or, David Levin:
GPU-assisted positive mean value coordinates for mesh deformations. Symposium on Geometry Processing 2007: 117-123 - 2006
- [j19]Avi Zulti, Adi Levin, David Levin, Mina Teicher:
C2 subdivision over triangulations with one extraordinary point. Comput. Aided Geom. Des. 23(2): 157-178 (2006) - [j18]Z. Komargodski, David Levin:
Hermite type moving-least-squares approximations. Comput. Math. Appl. 51(8): 1223-1232 (2006) - [c12]David Levin, Aaron Fenster, Hanif M. Ladak:
A hybrid deformable model for simulating prostate brachytherapy. Medical Imaging: Image-Guided Procedures 2006: 61410Q - [c11]Yaron Lipman, Daniel Cohen-Or, David Levin:
Error bounds and optimal neighborhoods for MLS approximation. Symposium on Geometry Processing 2006: 71-80 - 2005
- [j17]Yaron Lipman, Olga Sorkine, Marc Alexa
Laplacian Framework for Interactive Mesh Editing. Int. J. Shape Model. 11(1): 43-62 (2005) - [j16]David Levin:
Practical extrapolation methods: theory and applications. Math. Comput. 74(250) (2005) - [j15]Yaron Lipman, Olga Sorkine, David Levin, Daniel Cohen-Or:
Linear rotation-invariant coordinates for meshes. ACM Trans. Graph. 24(3): 479-487 (2005) - [c10]Jonathan Friedman, David Lee, Ilias Tsigkogiannis, Sophia Wong, Dennis Chao, David Levin, William J. Kaiser, Mani B. Srivastava:
RAGOBOT: A New Platform for Wireless Mobile Sensor Networks. DCOSS 2005: 412-412 - [c9]David Levin, Damini Dey
Efficient 3D nonlinear warping of computed tomography: two high-performance implementations using OpenGL. Medical Imaging: Image-Guided Procedures 2005 - [c8]Scott Schaefer, David Levin, Ron Goldman:
Subdivision Schemes and Attractors. Symposium on Geometry Processing 2005: 171-180 - [p3]Martin Marinov, Nira Dyn, David Levin:
Geometrically Controlled 4-Point Interpolatory Schemes. Advances in Multiresolution for Geometric Modelling 2005: 301-315 - 2004
- [c7]Yaron Lipman, Olga Sorkine, Daniel Cohen-Or, David Levin, Christian Rössl, Hans-Peter Seidel:
Differential Coordinates for Interactive Mesh Editing. SMI 2004: 181-190 - 2003
- [j14]Nira Dyn, David Levin, Ariel Luzzatto:
Exponentials Reproducing Subdivision Schemes. Found. Comput. Math. 3(2): 187-206 (2003) - [j13]Marc Alexa
Computing and Rendering Point Set Surfaces. IEEE Trans. Vis. Comput. Graph. 9(1): 3-15 (2003) - [c6]David Levin:
Lessons Learned in Using Live Red Teams in IA Experiments. DISCEX (1) 2003: 110-119 - 2002
- [j12]Sun-Jeong Kim, Chang-Hun Kim, David Levin:
Surface simplification using a discrete curvature norm. Comput. Graph. 26(5): 657-663 (2002) - [c5]James P. G. Sterbenz, Rajesh Krishnan, Regina Hain, Alden W. Jackson, David Levin, Ram Ramanathan, John Zao:
Survivable mobile wireless networks: issues, challenges, and research directions. Workshop on Wireless Security 2002: 31-40 - 2001
- [c4]Marc Alexa, Johannes Behr, Daniel Cohen-Or, Shachar Fleishman, David Levin, Cláudio T. Silva:
Point Set Surfaces. IEEE Visualization 2001: 21-28 - 2000
- [c3]Marc Alexa, Daniel Cohen-Or, David Levin:
As-rigid-as-possible shape interpolation. SIGGRAPH 2000: 157-164 - [p2]Daniel Cohen-Or, Arie Kadosh, David Levin, Roni Yagel:
Smooth Boundary Surfaces from Binary 3D Datasets. Volume Graphics (Graphics) 2000: 71-78
1990 – 1999
- 1999
- [j11]David Levin:
Using Laurent polynomial representation for the analysis of non-uniform binary subdivision schemes. Adv. Comput. Math. 11(1): 41-54 (1999) - [j10]Nira Dyn, Frans Kuijt, David Levin, Ruud van Damme:
Convexity preservation of the four-point interpolatory subdivision scheme. Comput. Aided Geom. Des. 16(8): 789-792 (1999) - [j9]Alan M. Cohen, David Levin:
Accelerating infinite products. Numer. Algorithms 22(2): 157-165 (1999) - [c2]Daniel Cohen-Or, David Levin, Offir Remez:
Progressive Compression of Arbitrary Triangular Meshes. IEEE Visualization 1999: 67-72 - 1998
- [j8]Chen Greif, David Levin:
The d2-transformation for infinite double series and the D2-transformation for infinite double integrals. Math. Comput. 67(222): 695-714 (1998) - [j7]David Levin:
The approximation power of moving least-squares. Math. Comput. 67(224): 1517-1531 (1998) - [j6]Daniel Cohen-Or, Amira Solomovici, David Levin:
Three-Dimensional Distance Field Metamorphosis. ACM Trans. Graph. 17(2): 116-141 (1998) - 1996
- [c1]Daniel Cohen-Or, David Levin, Amira Solomovici:
Contour Blending Using Warp-Guided Distance Field Interpolation. IEEE Visualization 1996: 165-172 - 1995
- [j5]David Levin, Edmond Nadler:
Convexity preserving interpolation by algebraic curves and surfaces. Numer. Algorithms 9(1): 113-139 (1995) - 1993
- [j4]Nira Gruberger, David Levin, Charles K. Chui:
Adding flexibility to piecewise quadratic curves and surfaces. Comput. Aided Geom. Des. 10(5): 469-481 (1993) - 1992
- [j3]Nira Dyn, David Levin, Dingyuan Liu:
Interpolatory convexity-preserving subdivision schemes for curves and surfaces. Comput. Aided Des. 24(4): 211-216 (1992) - 1991
- [p1]Nira Dyn, David Levin, I. Yad-Shalom:
Regularity Conditions for a Class of Geometrically Continuous Curves and Surfaces. Curves and Surfaces 1991: 169-176 - 1990
- [j2]Nira Dyn, David Levin, Charles A. Micchelli:
Using parameters to increase smoothness of curves and surfaces generated by subdivision. Comput. Aided Geom. Des. 7(1-4): 129-140 (1990)
1980 – 1989
- 1987
- [j1]Nira Dyn, David Levin, John A. Gregory:
A 4-point interpolatory subdivision scheme for curve design. Comput. Aided Geom. Des. 4(4): 257-268 (1987)
Coauthor Index
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