Frances Y. Kuo

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2008

15 EE Frances Y. Kuo, Ian H. Sloan, Henryk Wozniakowski: Lattice rule algorithms for multivariate approximation in the average case setting. J. Complexity 24(2): 283-323 (2008)

14 EE Frances Y. Kuo, Grzegorz W. Wasilkowski, Henryk Wozniakowski: Multivariate L_INFINITY approximation in the worst case setting over reproducing kernel Hilbert spaces. Journal of Approximation Theory 152(2): 135-160 (2008)

13 EE Stephen Joe, Frances Y. Kuo: Constructing Sobol Sequences with Better Two-Dimensional Projections. SIAM J. Scientific Computing 30(5): 2635-2654 (2008)

2007

12 EE Kerstin Hesse, Frances Y. Kuo, Ian H. Sloan: A component-by-component approach to efficient numerical integration over products of spheres. J. Complexity 23(1): 25-51 (2007)

11 EE Josef Dick, Peter Kritzer, Frances Y. Kuo, Ian H. Sloan: Lattice-Nyström method for Fredholm integral equations of the second kind with convolution type kernels. J. Complexity 23(4-6): 752-772 (2007)

10 EE Frances Y. Kuo, Ian H. Sloan, Henryk Wozniakowski: Periodization strategy may fail in high dimensions. Numerical Algorithms 46(4): 369-391 (2007)

2006

9 EE Benjamin J. Waterhouse, Frances Y. Kuo, Ian H. Sloan: Randomly shifted lattice rules on the unit cube for unbounded integrands in high dimensions. J. Complexity 22(1): 71-101 (2006)

8 EE Frances Y. Kuo, Grzegorz W. Wasilkowski, Benjamin J. Waterhouse: Randomly shifted lattice rules for unbounded integrands. J. Complexity 22(5): 630-651 (2006)

7 EE Ronald Cools, Frances Y. Kuo, Dirk Nuyens: Constructing Embedded Lattice Rules for Multivariate Integration. SIAM J. Scientific Computing 28(6): 2162-2188 (2006)

2005

6 EE Frances Y. Kuo, Ian H. Sloan: Quasi-Monte Carlo methods can be efficient for integration over products of spheres. J. Complexity 21(2): 196-210 (2005)

2004

5 Josef Dick, Frances Y. Kuo: Reducing the construction cost of the component-by-component construction of good lattice rules. Math. Comput. 73(248): 1967-1988 (2004)

2003

4 EE Stephen Joe, Frances Y. Kuo: Remark on algorithm 659: Implementing Sobol's quasirandom sequence generator. ACM Trans. Math. Softw. 29(1): 49-57 (2003)

3 EE Frances Y. Kuo: Component-by-component constructions achieve the optimal rate of convergence for multivariate integration in weighted Korobov and Sobolev spaces. J. Complexity 19(3): 301-320 (2003)

2002

2 EE Frances Y. Kuo, Stephen Joe: Component-by-Component Construction of Good Lattice Rules with a Composite Number of Points. J. Complexity 18(4): 943-976 (2002)

1 Ian H. Sloan, Frances Y. Kuo, Stephen Joe: On the step-by-step construction of quasi--Monte Carlo integration rules that achieve strong tractability error bounds in weighted Sobolev spaces. Math. Comput. 71(240): 1609-1640 (2002)

2008
15	EE	Frances Y. Kuo, Ian H. Sloan, Henryk Wozniakowski: Lattice rule algorithms for multivariate approximation in the average case setting. J. Complexity 24(2): 283-323 (2008)
14	EE	Frances Y. Kuo, Grzegorz W. Wasilkowski, Henryk Wozniakowski: Multivariate L_INFINITY approximation in the worst case setting over reproducing kernel Hilbert spaces. Journal of Approximation Theory 152(2): 135-160 (2008)
13	EE	Stephen Joe, Frances Y. Kuo: Constructing Sobol Sequences with Better Two-Dimensional Projections. SIAM J. Scientific Computing 30(5): 2635-2654 (2008)
2007
12	EE	Kerstin Hesse, Frances Y. Kuo, Ian H. Sloan: A component-by-component approach to efficient numerical integration over products of spheres. J. Complexity 23(1): 25-51 (2007)
11	EE	Josef Dick, Peter Kritzer, Frances Y. Kuo, Ian H. Sloan: Lattice-Nyström method for Fredholm integral equations of the second kind with convolution type kernels. J. Complexity 23(4-6): 752-772 (2007)
10	EE	Frances Y. Kuo, Ian H. Sloan, Henryk Wozniakowski: Periodization strategy may fail in high dimensions. Numerical Algorithms 46(4): 369-391 (2007)
2006
9	EE	Benjamin J. Waterhouse, Frances Y. Kuo, Ian H. Sloan: Randomly shifted lattice rules on the unit cube for unbounded integrands in high dimensions. J. Complexity 22(1): 71-101 (2006)
8	EE	Frances Y. Kuo, Grzegorz W. Wasilkowski, Benjamin J. Waterhouse: Randomly shifted lattice rules for unbounded integrands. J. Complexity 22(5): 630-651 (2006)
7	EE	Ronald Cools, Frances Y. Kuo, Dirk Nuyens: Constructing Embedded Lattice Rules for Multivariate Integration. SIAM J. Scientific Computing 28(6): 2162-2188 (2006)
2005
6	EE	Frances Y. Kuo, Ian H. Sloan: Quasi-Monte Carlo methods can be efficient for integration over products of spheres. J. Complexity 21(2): 196-210 (2005)
2004
5		Josef Dick, Frances Y. Kuo: Reducing the construction cost of the component-by-component construction of good lattice rules. Math. Comput. 73(248): 1967-1988 (2004)
2003
4	EE	Stephen Joe, Frances Y. Kuo: Remark on algorithm 659: Implementing Sobol's quasirandom sequence generator. ACM Trans. Math. Softw. 29(1): 49-57 (2003)
3	EE	Frances Y. Kuo: Component-by-component constructions achieve the optimal rate of convergence for multivariate integration in weighted Korobov and Sobolev spaces. J. Complexity 19(3): 301-320 (2003)
2002
2	EE	Frances Y. Kuo, Stephen Joe: Component-by-Component Construction of Good Lattice Rules with a Composite Number of Points. J. Complexity 18(4): 943-976 (2002)
1		Ian H. Sloan, Frances Y. Kuo, Stephen Joe: On the step-by-step construction of quasi--Monte Carlo integration rules that achieve strong tractability error bounds in weighted Sobolev spaces. Math. Comput. 71(240): 1609-1640 (2002)

Coauthor Index

1 Ronald Cools [7]

2 Josef Dick [5] [11]

3 Kerstin Hesse [12]

4 Stephen Joe [1] [2] [4] [13]

5 Peter Kritzer [11]

6 Dirk Nuyens [7]

7 Ian H. Sloan [1] [6] [9] [10] [11] [12] [15]

8 Grzegorz W. Wasilkowski [8] [14]

9 Benjamin J. Waterhouse [8] [9]

10 Henryk Wozniakowski [10] [14] [15]

1	Ronald Cools	[7]
2	Josef Dick	[5] [11]
3	Kerstin Hesse	[12]
4	Stephen Joe	[1] [2] [4] [13]
5	Peter Kritzer	[11]
6	Dirk Nuyens	[7]
7	Ian H. Sloan	[1] [6] [9] [10] [11] [12] [15]
8	Grzegorz W. Wasilkowski	[8] [14]
9	Benjamin J. Waterhouse	[8] [9]
10	Henryk Wozniakowski	[10] [14] [15]