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ORCIDEmil Zagar
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2020 – today
- 2025
[j37]Rida T. Farouki, Marjeta Knez
, Vito Vitrih, Emil Zagar:
Application of a metric for complex polynomials to bounded modification of planar Pythagorean-hodograph curves. J. Comput. Appl. Math. 456: 116235 (2025)- 2024
- [i6]Ada Sadl Praprotnik, Ales Vavpetic, Emil Zagar:
Optimal one-sided approximants of circular arc. CoRR abs/2401.09129 (2024) - [i5]Rida T. Farouki, Marjeta Knez, Vito Vitrih, Emil Zagar:
Application of a metric for complex polynomials to bounded modification of planar Pythagorean-hodograph curves. CoRR abs/2402.09850 (2024) - 2023
- [j36]Ales Vavpetic, Emil Zagar:
Optimal approximation of spherical squares by tensor product quadratic Bézier patches. Appl. Math. Comput. 457: 128196 (2023) - [j35]Emil Zagar:
Arc length preserving G2 Hermite interpolation of circular arcs. J. Comput. Appl. Math. 424: 115008 (2023) - [i4]Ales Vavpetic, Emil Zagar:
Optimal approximation of spherical squares by tensor product quadratic Bézier patches. CoRR abs/2303.04434 (2023) - 2022
- [j34]Rida T. Farouki, Marjeta Knez, Vito Vitrih, Emil Zagar:
On the construction of polynomial minimal surfaces with Pythagorean normals. Appl. Math. Comput. 435: 127439 (2022) - [j33]Ales Vavpetic, Emil Zagar:
Geometric approximation of the sphere by triangular polynomial spline patches. Comput. Aided Geom. Des. 92: 102061 (2022) - [j32]Grega Cigler, Emil Zagar:
Interpolation of planar G1 data by Pythagorean-hodograph cubic biarcs with prescribed arc lengths. Comput. Aided Geom. Des. 96: 102119 (2022) - [i3]Emil Zagar:
Arc length preserving approximation of circular arcs by Pythagorean-hodograph curves of degree seven. CoRR abs/2201.07445 (2022) - 2021
- [j31]Rida T. Farouki, Marjeta Knez, Vito Vitrih, Emil Zagar:
Spatial C2 closed loops of prescribed arc length defined by Pythagorean-hodograph curves. Appl. Math. Comput. 391: 125653 (2021) - [j30]Rida T. Farouki, Marjeta Knez, Vito Vitrih, Emil Zagar:
Planar projections of spatial Pythagorean-hodograph curves. Comput. Aided Geom. Des. 91: 102049 (2021) - [j29]Ales Vavpetic, Emil Zagar:
On optimal polynomial geometric interpolation of circular arcs according to the Hausdorff distance. J. Comput. Appl. Math. 392: 113491 (2021) - [i2]Ales Vavpetic, Emil Zagar:
Geometric approximation of the sphere by triangular polynomial spline patches. CoRR abs/2104.12496 (2021) - 2020
- [i1]Ales Vavpetic, Emil Zagar:
On optimal polynomial geometric interpolation of circular arcs according to the Hausdorff distance. CoRR abs/2003.06672 (2020)
2010 – 2019
- 2019
- [j28]Ales Vavpetic, Emil Zagar:
A general framework for the optimal approximation of circular arcs by parametric polynomial curves. J. Comput. Appl. Math. 345: 146-158 (2019) - 2018
- [j27]Marjeta Knez, Emil Zagar:
Interpolation of circular arcs by parametric polynomials of maximal geometric smoothness. Comput. Aided Geom. Des. 63: 66-77 (2018) - [j26]Emil Zagar:
Circular sector area preserving approximation of circular arcs by geometrically smooth parametric polynomials. J. Comput. Appl. Math. 336: 63-71 (2018) - 2016
- [j25]Bostjan Kovac, Emil Zagar:
Curvature approximation of circular arcs by low-degree parametric polynomials. J. Num. Math. 24(2): 95-104 (2016) - 2014
- [j24]Bostjan Kovac, Emil Zagar:
Some new G1 quartic parametric approximants of circular arcs. Appl. Math. Comput. 239: 254-264 (2014) - [j23]Carlotta Giannelli, Kai Hormann, Emil Zagar:
Recent trends in theoretical and applied geometry. Comput. Aided Geom. Des. 31(7-8): 329-330 (2014) - [j22]Bohumír Bastl, Michal Bizzarri, Karla Ferjancic, Bostjan Kovac, Marjeta Krajnc, Miroslav Lávicka, Kristýna Michálková, Zbynek Sír, Emil Zagar:
C2 Hermite interpolation by Pythagorean-hodograph quintic triarcs. Comput. Aided Geom. Des. 31(7-8): 412-426 (2014) - [j21]Marjeta Krajnc, Maria Lucia Sampoli, Alessandra Sestini, Emil Zagar:
C1 interpolation by rational biarcs with rational rotation minimizing directed frames. Comput. Aided Geom. Des. 31(7-8): 427-440 (2014) - [j20]Bohumír Bastl, Michal Bizzarri, Marjeta Krajnc, Miroslav Lávicka, Kristýna Slabá, Zbynek Sír, Vito Vitrih, Emil Zagar:
C1 Hermite interpolation with spatial Pythagorean-hodograph cubic biarcs. J. Comput. Appl. Math. 257: 65-78 (2014) - 2013
- [j19]Gasper Jaklic, Maria Lucia Sampoli, Alessandra Sestini, Emil Zagar:
C1 rational interpolation of spherical motions with rational rotation-minimizing directed frames. Comput. Aided Geom. Des. 30(1): 159-173 (2013) - [j18]Gasper Jaklic, Bert Jüttler, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
Hermite interpolation by rational GK motions of low degree. J. Comput. Appl. Math. 240: 20-30 (2013) - 2012
- [j17]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
An approach to geometric interpolation by Pythagorean-hodograph curves. Adv. Comput. Math. 37(1): 123-150 (2012) - [j16]Gasper Jaklic, Jernej Kozak, Vito Vitrih, Emil Zagar:
Lagrange geometric interpolation by rational spatial cubic Bézier curves. Comput. Aided Geom. Des. 29(3-4): 175-188 (2012) - [j15]Gasper Jaklic, Tadej Kanduc, Selena Praprotnik, Emil Zagar:
Energy Minimizing Mountain Ascent. J. Optim. Theory Appl. 155(2): 680-693 (2012) - [j14]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
Hermite Geometric Interpolation by Rational Bézier Spatial Curves. SIAM J. Numer. Anal. 50(5): 2695-2715 (2012) - [c1]Maria Lucia Sampoli, Alessandra Sestini, Gasper Jaklic, Emil Zagar:
A Theoretical Analysis of an Improved Rational Scheme for Spherical Camera Motions. MMCS 2012: 442-455 - 2011
- [j13]Gasper Jaklic, Emil Zagar:
Curvature variation minimizing cubic Hermite interpolants. Appl. Math. Comput. 218(7): 3918-3924 (2011) - [j12]Gasper Jaklic, Emil Zagar:
Planar cubic G1 interpolatory splines with small strain energy. J. Comput. Appl. Math. 235(8): 2758-2765 (2011) - 2010
- [j11]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
Lattices on simplicial partitions. J. Comput. Appl. Math. 233(7): 1704-1715 (2010) - [j10]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
On interpolation by Planar cubic G2 pythagorean-hodograph spline curves. Math. Comput. 79(269): 305-326 (2010)
2000 – 2009
- 2008
- [j9]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
On geometric Lagrange interpolation by quadratic parametric patches. Comput. Aided Geom. Des. 25(6): 373-384 (2008) - [j8]Bert Jüttler, Otto Röschel, Emil Zagar:
Classical Techniques for Applied Geometry. Comput. Aided Geom. Des. 25(9): 705-706 (2008) - [j7]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
Geometric Lagrange interpolation by planar cubic Pythagorean-hodograph curves. Comput. Aided Geom. Des. 25(9): 720-728 (2008) - [j6]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
Barycentric coordinates for Lagrange interpolation over lattices on a simplex. Numer. Algorithms 48(1-3): 93-104 (2008) - 2007
- [j5]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Emil Zagar:
On geometric interpolation of circle-like curves. Comput. Aided Geom. Des. 24(5): 241-251 (2007) - [j4]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Emil Zagar:
On geometric interpolation by planar parametric polynomial curves. Math. Comput. 76(260): 1981-1993 (2007) - [j3]Gasper Jaklic, Jernej Kozak, Marjeta Krajnc, Vito Vitrih, Emil Zagar:
Three-pencil lattices on triangulations. Numer. Algorithms 45(1-4): 49-60 (2007) - 2004
- [j2]Jernej Kozak, Emil Zagar:
On Geometric Interpolation by Polynomial Curves. SIAM J. Numer. Anal. 42(3): 953-967 (2004) - 2003
- [j1]Matjaz Jogan, Emil Zagar, Ales Leonardis:
Karhunen-Loéve expansion of a set of rotated templates. IEEE Trans. Image Process. 12(7): 817-825 (2003)
Coauthor Index
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