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Peter Kritzer
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2020 – today
- 2024
- [j42]David Krieg
, Peter Kritzer:
Homogeneous algorithms and solvable problems on cones. J. Complex. 83: 101840 (2024) - [j41]Onyekachi Emenike, Fred J. Hickernell, Peter Kritzer:
A unified treatment of tractability for approximation problems defined on Hilbert spaces. J. Complex. 84: 101856 (2024) - [j40]Peter Kritzer:
Selected aspects of tractability analysis. J. Complex. 84: 101869 (2024) - [j39]Josef Dick, Adrian Ebert, Lukas Herrmann, Peter Kritzer
The fast reduced QMC matrix-vector product. J. Comput. Appl. Math. 440: 115642 (2024) - [i16]Peter Kritzer:
Selected aspects of tractability analysis. CoRR abs/2402.02396 (2024) - [i15]Vishnupriya Anupindi, Peter Kritzer:
Column reduced digital nets. CoRR abs/2406.10850 (2024) - [i14]Philipp A. Guth, Peter Kritzer, Karl Kunisch:
Quasi-Monte Carlo integration for feedback control under uncertainty. CoRR abs/2409.15537 (2024) - 2023
- [j38]Peter Kritzer:
A note on the CBC-DBD construction of lattice rules with general positive weights. J. Complex. 76: 101721 (2023) - [i13]Josef Dick, Adrian Ebert, Lukas Herrmann, Peter Kritzer, Marcello Longo:
The fast reduced QMC matrix-vector product. CoRR abs/2305.11645 (2023) - [i12]Michael Gnewuch, Peter Kritzer, Art B. Owen, Zexin Pan:
Computable error bounds for quasi-Monte Carlo using points with non-negative local discrepancy. CoRR abs/2309.04209 (2023) - [i11]Onyekachi Emenike, Fred J. Hickernell, Peter Kritzer:
A unified treatment of tractability for approximation problems defined on Hilbert spaces. CoRR abs/2310.17777 (2023) - [i10]David Krieg
Homogeneous algorithms and solvable problems on cones. CoRR abs/2311.15767 (2023) - 2022
- [j37]Adrian Ebert, Peter Kritzer, Onyekachi Osisiogu
Construction of good polynomial lattice rules in weighted Walsh spaces by an alternative component-by-component construction. Math. Comput. Simul. 192: 399-419 (2022) - [i9]Adrian Ebert, Peter Kritzer, Friedrich Pillichshammer:
Tractability of approximation in the weighted Korobov space in the worst-case setting. CoRR abs/2201.09940 (2022) - [i8]Peter Kritzer:
A note on the CBC-DBD construction of lattice rules with general positive weights. CoRR abs/2208.13610 (2022) - [i7]Peter Kritzer, Onyekachi Osisiogu
On a reduced digit-by-digit component-by-component construction of lattice point sets. CoRR abs/2211.12237 (2022) - 2021
- [j36]Adrian Ebert, Peter Kritzer, Dirk Nuyens
Digit-by-digit and component-by-component constructions of lattice rules for periodic functions with unknown smoothness. J. Complex. 66: 101555 (2021) - [j35]Peter Kritzer, Friedrich Pillichshammer, Grzegorz W. Wasilkowski:
On quasi-Monte Carlo methods in weighted ANOVA spaces. Math. Comput. 90(329): 1381-1406 (2021) - [i6]Adrian Ebert, Peter Kritzer, Onyekachi Osisiogu, Tetiana Stepaniuk:
Construction of good polynomial lattice rules in weighted Walsh spaces by an alternative component-by-component construction. CoRR abs/2101.12586 (2021) - 2020
- [j34]Peter Kritzer, Friedrich Pillichshammer, Leszek Plaskota, Grzegorz W. Wasilkowski:
On alternative quantization for doubly weighted approximation and integration over unbounded domains. J. Approx. Theory 256: 105433 (2020) - [j33]Peter Kritzer, Friedrich Pillichshammer, Henryk Wozniakowski:
Exponential tractability of linear weighted tensor product problems in the worst-case setting for arbitrary linear functionals. J. Complex. 61: 101501 (2020) - [j32]Peter Kritzer, Friedrich Pillichshammer, Leszek Plaskota, Grzegorz W. Wasilkowski:
On efficient weighted integration via a change of variables. Numerische Mathematik 146(3): 545-570 (2020) - [i5]Adrian Ebert, Peter Kritzer, Dirk Nuyens, Onyekachi Osisiogu
Digit-by-digit and component-by-component constructions of lattice rules for periodic functions with unknown smoothness. CoRR abs/2001.02978 (2020) - [i4]Peter Kritzer, Friedrich Pillichshammer, Greg W. Wasilkowski:
On Quasi-Monte Carlo Methods in Weighted ANOVA Spaces. CoRR abs/2001.05765 (2020) - [i3]Peter Kritzer, Friedrich Pillichshammer, Henryk Wozniakowski:
Exponential tractability of linear weighted tensor product problems in the worst-case setting for arbitrary linear functionals. CoRR abs/2001.11740 (2020) - [i2]Adrian Ebert, Peter Kritzer, Onyekachi Osisiogu, Tetiana Stepaniuk:
Component-by-component digit-by-digit construction of good polynomial lattice rules in weighted Walsh spaces. CoRR abs/2008.08966 (2020)
2010 – 2019
- 2019
- [j31]Peter Kritzer, Frances Y. Kuo, Dirk Nuyens
Lattice rules with random n achieve nearly the optimal O(n-α-1∕2) error independently of the dimension. J. Approx. Theory 240: 96-113 (2019) - [j30]Peter Kritzer, Henryk Wozniakowski:
Simple characterizations of exponential tractability for linear multivariate problems. J. Complex. 51: 110-128 (2019) - [j29]Adrian Ebert, Peter Kritzer
Constructing lattice points for numerical integration by a reduced fast successive coordinate search algorithm. J. Comput. Appl. Math. 351: 77-100 (2019) - [j28]Peter Kritzer
Truncation in average and worst case settings for special classes of ∞-variate functions. Math. Comput. Simul. 161: 52-65 (2019) - [j27]Aicke Hinrichs, Peter Kritzer
Truncation dimension for linear problems on multivariate function spaces. Numer. Algorithms 80(2): 661-685 (2019) - [i1]Peter Kritzer, Friedrich Pillichshammer, Leszek Plaskota, Grzegorz W. Wasilkowski:
On alternative quantization for doubly weighted approximation and integration over unbounded domains. CoRR abs/1907.04015 (2019) - 2018
- [j26]Evelyn Buckwar
Editorial. Math. Comput. Simul. 143: 1-2 (2018) - [j25]Christian Irrgeher, Peter Kritzer
Integration and approximation in cosine spaces of smooth functions. Math. Comput. Simul. 143: 35-45 (2018) - 2017
- [j24]Peter Kritzer
A note on equivalence of anchored and ANOVA spaces; lower bounds. J. Complex. 38: 31-38 (2017) - [j23]Peter Kritzer, Friedrich Pillichshammer
L∞-Approximation in Korobov spaces with exponential weights. J. Complex. 41: 102-125 (2017) - 2016
- [j22]Peter Kritzer
Mixed orthogonal arrays, -nets, and -sequences. Discret. Math. 339(9): 2199-2208 (2016) - [j21]Christian Irrgeher, Peter Kritzer
Approximation in Hermite spaces of smooth functions. J. Approx. Theory 207: 98-126 (2016) - [j20]Christian Irrgeher, Peter Kritzer
Tractability of multivariate approximation defined over Hilbert spaces with exponential weights. J. Approx. Theory 207: 301-338 (2016) - [j19]Josef Dick
On a projection-corrected component-by-component construction. J. Complex. 32(1): 74-80 (2016) - [j18]Peter Hellekalek, Peter Kritzer
Open type quasi-Monte Carlo integration based on Halton sequences in weighted Sobolev spaces. J. Complex. 33: 169-189 (2016) - [j17]Peter Kritzer
Very low truncation dimension for high dimensional integration under modest error demand. J. Complex. 35: 63-85 (2016) - 2015
- [j16]Christian Irrgeher, Peter Kritzer
Integration in Hermite spaces of analytic functions. J. Complex. 31(3): 380-404 (2015) - [j15]Peter Kritzer
Propagation rules for (u,m,e,s)-nets and (u,e,s)-sequences. J. Complex. 31(3): 457-473 (2015) - [j14]Josef Dick
A reduced fast component-by-component construction of lattice points for integration in weighted spaces with fast decreasing weights. J. Comput. Appl. Math. 276: 1-15 (2015) - [j13]Josef Dick
Numerical integration in log-Korobov and log-cosine spaces. Numer. Algorithms 70(4): 753-775 (2015) - 2014
- [j12]Josef Dick
Approximation of analytic functions in Korobov spaces. J. Complex. 30(2): 2-28 (2014) - [j11]Peter Kritzer
Multivariate integration of infinitely many times differentiable functions in weighted Korobov spaces. Math. Comput. 83(287): 1189-1206 (2014) - [c1]Peter Kritzer
Tractability of Multivariate Integration in Hybrid Function Spaces. MCQMC 2014: 437-454 - [p2]Henri Faure, Peter Kritzer
Discrepancy bounds for low-dimensional point sets. Applied Algebra and Number Theory 2014: 58-90 - [p1]Peter Kritzer
Tractability of multivariate analytic problems. Uniform Distribution and Quasi-Monte Carlo Methods 2014: 147-170 - [e1]Peter Kritzer
Uniform Distribution and Quasi-Monte Carlo Methods - Discrepancy, Integration and Applications. Radon Series on Computational and Applied Mathematics 15, De Gruyter 2014, ISBN 978-3-11-031793-0 [contents] - 2012
- [j10]Josef Dick
A higher order Blokh-Zyablov propagation rule for higher order nets. Finite Fields Their Appl. 18(6): 1169-1183 (2012) - [j9]Fred J. Hickernell
Weighted compound integration rules with higher order convergence for all N. Numer. Algorithms 59(2): 161-183 (2012) - 2010
- [j8]Josef Dick
Duality theory and propagation rules for generalized digital nets. Math. Comput. 79(270): 993-1017 (2010)
2000 – 2009
- 2009
- [j7]Jan Baldeaux, Josef Dick
On the approximation of smooth functions using generalized digital nets. J. Complex. 25(6): 544-567 (2009) - 2008
- [j6]Benjamin Doerr, Michael Gnewuch, Peter Kritzer
Component-by-component construction of low-discrepancy point sets of small size. Monte Carlo Methods Appl. 14(2): 129-149 (2008) - 2007
- [j5]Josef Dick
Constructions of general polynomial lattice rules based on the weighted star discrepancy. Finite Fields Their Appl. 13(4): 1045-1070 (2007) - [j4]Josef Dick
On the existence of higher order polynomial lattices based on a generalized figure of merit. J. Complex. 23(4-6): 581-593 (2007) - [j3]Josef Dick
Lattice-Nyström method for Fredholm integral equations of the second kind with convolution type kernels. J. Complex. 23(4-6): 752-772 (2007) - 2006
- [j2]Peter Kritzer
Improved upper bounds on the star discrepancy of (t, m, s)-nets and (t, s)-sequences. J. Complex. 22(3): 336-347 (2006) - [j1]Josef Dick, Peter Kritzer
A best possible upper bound on the star discrepancy of (t, m, 2)-nets. Monte Carlo Methods Appl. 12(1): 1-17 (2006)
Coauthor Index
aka: Greg W. Wasilkowski
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