Ian H. Sloan

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2008

35 EE Ian H. Sloan, Alvise Sommariva: Approximation on the sphere using radial basis functions plus polynomials. Adv. Comput. Math. 29(2): 147-177 (2008)

34 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)

2007

33 Stephan Dahlke, Klaus Ritter, Ian H. Sloan, Joseph F. Traub: Algorithms and Complexity for Continuous Problems, 24.09. - 29.09.2006 Internationales Begegnungs- und Forschungszentrum fuer Informatik (IBFI), Schloss Dagstuhl, Germany 2007

32 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)

31 EE Kerstin Hesse, H. N. Mhaskar, Ian H. Sloan: Quadrature in Besov spaces on the Euclidean sphere. J. Complexity 23(4-6): 528-552 (2007)

30 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)

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

2006

28 EE Stephan Dahlke, Klaus Ritter, Ian H. Sloan, Joseph F. Traub: 06391 Abstracts Collection -- Algorithms and Complexity for Continuous Problems. Algorithms and Complexity for Continuous Problems 2006

27 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)

26 EE Leszek Plaskota, Ian H. Sloan: Guest Editors' preface. J. Complexity 22(5): (2006)

25 EE Kerstin Hesse, Ian H. Sloan: Cubature over the sphere S² in Sobolev spaces of arbitrary order. Journal of Approximation Theory 141(2): 118-133 (2006)

24 EE Xiaoqun Wang, Ian H. Sloan: Efficient Weighted Lattice Rules with Applications to Finance. SIAM J. Scientific Computing 28(2): 728-750 (2006)

2005

23 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)

22 EE Kerstin Hesse, Ian H. Sloan: Optimal lower bounds for cubature error on the sphere S². J. Complexity 21(6): 790-803 (2005)

21 EE R. D. Grigorieff, Ian H. Sloan: Discrete orthogonal projections on multiple knot periodic splines. Journal of Approximation Theory 137(2): 201-225 (2005)

20 EE Xiaoqun Wang, Ian H. Sloan: Why Are High-Dimensional Finance Problems Often of Low Effective Dimension?. SIAM J. Scientific Computing 27(1): 159-183 (2005)

2004

19 EE Ian H. Sloan, Robert S. Womersley: Extremal Systems of Points and Numerical Integration on the Sphere. Adv. Comput. Math. 21(1-2): 107-125 (2004)

18 EE Erich Novak, Ian H. Sloan, Henryk Wozniakowski: Tractability of Approximation for Weighted Korobov Spaces on Classical and Quantum Computers. Foundations of Computational Mathematics 4(2): 121-156 (2004)

17 EE Ian H. Sloan, Xiaoqun Wang, Henryk Wozniakowski: Finite-order weights imply tractability of multivariate integration. J. Complexity 20(1): 46-74 (2004)

16 EE Josef Dick, Ian H. Sloan, Xiaoqun Wang, Henryk Wozniakowski: Liberating the weights. J. Complexity 20(5): 593-623 (2004)

15 Fred J. Hickernell, Ian H. Sloan, Grzegorz W. Wasilkowski: On tractability of weighted integration over bounded and unbounded regions in Real^s. Math. Comput. 73(248): 1885-1901 (2004)

14 Fred J. Hickernell, Ian H. Sloan, Grzegorz W. Wasilkowski: On strong tractability of weighted multivariate integration. Math. Comput. 73(248): 1903-1911 (2004)

2002

13 EE Ian H. Sloan, Henryk Wozniakowski: Tractability of Integration in Non-periodic and Periodic Weighted Tensor Product Hilbert Spaces. J. Complexity 18(2): 479-499 (2002)

12 Ian H. Sloan, Andrew V. Reztsov: Component-by-component construction of good lattice rules. Math. Comput. 71(237): 263-273 (2002)

11 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)

2001

10 EE Robert S. Womersley, Ian H. Sloan: How good can polynomial interpolation on the sphere be? Adv. Comput. Math. 14(3): 195-226 (2001)

9 EE Ian H. Sloan, Arthur G. Werschultz: ANNOUNCEMENT: 2001 Best Paper Award Committee. J. Complexity 17(3): 495- (2001)

8 EE Ian H. Sloan, Henryk Wozniakowski: Tractability of Multivariate Integration for Weighted Korobov Classes. J. Complexity 17(4): 697-721 (2001)

2000

7 Dongwoo Sheen, Ian H. Sloan, Vidar Thomée: A parallel method for time-discretization of parabolic problems based on contour integral representation and quadrature. Math. Comput. 69(229): 177-195 (2000)

1998

6 EE Ian H. Sloan, Henryk Wozniakowski: When Are Quasi-Monte Carlo Algorithms Efficient for High Dimensional Integrals? J. Complexity 14(1): 1-33 (1998)

1997

5 EE Y. Jeon, Ian H. Sloan, E. P. Stephan, J. Elschner: Discrete qualocation methods for logarithmic-kernel integral equations on a piecewise smooth boundary. Adv. Comput. Math. 7(4): 547-571 (1997)

4 EE Erich Novak, Ian H. Sloan, Henryk Wozniakowski: Tractability of Tensor Product Linear Operators. J. Complexity 13(4): 387-418 (1997)

3 Ian H. Sloan, Henryk Wozniakowski: An intractability result for multiple integration. Math. Comput. 66(219): 1119-1124 (1997)

1996

2 Ch. Lubich, Ian H. Sloan, Vidar Thomée: Nonsmooth data error estimates for approximations of an evolution equation with a positive-type memory term. Math. Comput. 65(213): 1-17 (1996)

1 Ronald Cools, Ian H. Sloan: Minimal cubature formulae of trigonometric degree. Math. Comput. 65(216): 1583-1600 (1996)

2008
35	EE	Ian H. Sloan, Alvise Sommariva: Approximation on the sphere using radial basis functions plus polynomials. Adv. Comput. Math. 29(2): 147-177 (2008)
34	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)
2007
33		Stephan Dahlke, Klaus Ritter, Ian H. Sloan, Joseph F. Traub: Algorithms and Complexity for Continuous Problems, 24.09. - 29.09.2006 Internationales Begegnungs- und Forschungszentrum fuer Informatik (IBFI), Schloss Dagstuhl, Germany 2007
32	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)
31	EE	Kerstin Hesse, H. N. Mhaskar, Ian H. Sloan: Quadrature in Besov spaces on the Euclidean sphere. J. Complexity 23(4-6): 528-552 (2007)
30	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)
29	EE	Frances Y. Kuo, Ian H. Sloan, Henryk Wozniakowski: Periodization strategy may fail in high dimensions. Numerical Algorithms 46(4): 369-391 (2007)
2006
28	EE	Stephan Dahlke, Klaus Ritter, Ian H. Sloan, Joseph F. Traub: 06391 Abstracts Collection -- Algorithms and Complexity for Continuous Problems. Algorithms and Complexity for Continuous Problems 2006
27	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)
26	EE	Leszek Plaskota, Ian H. Sloan: Guest Editors' preface. J. Complexity 22(5): (2006)
25	EE	Kerstin Hesse, Ian H. Sloan: Cubature over the sphere S² in Sobolev spaces of arbitrary order. Journal of Approximation Theory 141(2): 118-133 (2006)
24	EE	Xiaoqun Wang, Ian H. Sloan: Efficient Weighted Lattice Rules with Applications to Finance. SIAM J. Scientific Computing 28(2): 728-750 (2006)
2005
23	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)
22	EE	Kerstin Hesse, Ian H. Sloan: Optimal lower bounds for cubature error on the sphere S². J. Complexity 21(6): 790-803 (2005)
21	EE	R. D. Grigorieff, Ian H. Sloan: Discrete orthogonal projections on multiple knot periodic splines. Journal of Approximation Theory 137(2): 201-225 (2005)
20	EE	Xiaoqun Wang, Ian H. Sloan: Why Are High-Dimensional Finance Problems Often of Low Effective Dimension?. SIAM J. Scientific Computing 27(1): 159-183 (2005)
2004
19	EE	Ian H. Sloan, Robert S. Womersley: Extremal Systems of Points and Numerical Integration on the Sphere. Adv. Comput. Math. 21(1-2): 107-125 (2004)
18	EE	Erich Novak, Ian H. Sloan, Henryk Wozniakowski: Tractability of Approximation for Weighted Korobov Spaces on Classical and Quantum Computers. Foundations of Computational Mathematics 4(2): 121-156 (2004)
17	EE	Ian H. Sloan, Xiaoqun Wang, Henryk Wozniakowski: Finite-order weights imply tractability of multivariate integration. J. Complexity 20(1): 46-74 (2004)
16	EE	Josef Dick, Ian H. Sloan, Xiaoqun Wang, Henryk Wozniakowski: Liberating the weights. J. Complexity 20(5): 593-623 (2004)
15		Fred J. Hickernell, Ian H. Sloan, Grzegorz W. Wasilkowski: On tractability of weighted integration over bounded and unbounded regions in Real^s. Math. Comput. 73(248): 1885-1901 (2004)
14		Fred J. Hickernell, Ian H. Sloan, Grzegorz W. Wasilkowski: On strong tractability of weighted multivariate integration. Math. Comput. 73(248): 1903-1911 (2004)
2002
13	EE	Ian H. Sloan, Henryk Wozniakowski: Tractability of Integration in Non-periodic and Periodic Weighted Tensor Product Hilbert Spaces. J. Complexity 18(2): 479-499 (2002)
12		Ian H. Sloan, Andrew V. Reztsov: Component-by-component construction of good lattice rules. Math. Comput. 71(237): 263-273 (2002)
11		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)
2001
10	EE	Robert S. Womersley, Ian H. Sloan: How good can polynomial interpolation on the sphere be? Adv. Comput. Math. 14(3): 195-226 (2001)
9	EE	Ian H. Sloan, Arthur G. Werschultz: ANNOUNCEMENT: 2001 Best Paper Award Committee. J. Complexity 17(3): 495- (2001)
8	EE	Ian H. Sloan, Henryk Wozniakowski: Tractability of Multivariate Integration for Weighted Korobov Classes. J. Complexity 17(4): 697-721 (2001)
2000
7		Dongwoo Sheen, Ian H. Sloan, Vidar Thomée: A parallel method for time-discretization of parabolic problems based on contour integral representation and quadrature. Math. Comput. 69(229): 177-195 (2000)
1998
6	EE	Ian H. Sloan, Henryk Wozniakowski: When Are Quasi-Monte Carlo Algorithms Efficient for High Dimensional Integrals? J. Complexity 14(1): 1-33 (1998)
1997
5	EE	Y. Jeon, Ian H. Sloan, E. P. Stephan, J. Elschner: Discrete qualocation methods for logarithmic-kernel integral equations on a piecewise smooth boundary. Adv. Comput. Math. 7(4): 547-571 (1997)
4	EE	Erich Novak, Ian H. Sloan, Henryk Wozniakowski: Tractability of Tensor Product Linear Operators. J. Complexity 13(4): 387-418 (1997)
3		Ian H. Sloan, Henryk Wozniakowski: An intractability result for multiple integration. Math. Comput. 66(219): 1119-1124 (1997)
1996
2		Ch. Lubich, Ian H. Sloan, Vidar Thomée: Nonsmooth data error estimates for approximations of an evolution equation with a positive-type memory term. Math. Comput. 65(213): 1-17 (1996)
1		Ronald Cools, Ian H. Sloan: Minimal cubature formulae of trigonometric degree. Math. Comput. 65(216): 1583-1600 (1996)

Coauthor Index

1 Ronald Cools [1]

2 Stephan Dahlke [28] [33]

3 Josef Dick [16] [30]

4 J. Elschner [5]

5 R. D. Grigorieff [21]

6 Kerstin Hesse [22] [25] [31] [32]

7 Fred J. Hickernell [14] [15]

8 Y. Jeon [5]

9 Stephen Joe [11]

10 Peter Kritzer [30]

11 Frances Y. Kuo [11] [23] [27] [29] [30] [32] [34]

12 Ch. Lubich [2]

13 H. N. Mhaskar [31]

14 Erich Novak [4] [18]

15 Leszek Plaskota [26]

16 Andrew V. Reztsov [12]

17 Klaus Ritter [28] [33]

18 Dongwoo Sheen [7]

19 Alvise Sommariva [35]

20 E. P. Stephan [5]

21 Vidar Thomée [2] [7]

22 J. F. Traub (Joseph F. Traub) [28] [33]

23 Xiaoqun Wang [16] [17] [20] [24]

24 Grzegorz W. Wasilkowski [14] [15]

25 Benjamin J. Waterhouse [27]

26 Arthur G. Werschultz [9]

27 Robert S. Womersley [10] [19]

28 Henryk Wozniakowski [3] [4] [6] [8] [13] [16] [17] [18] [29] [34]

Colors in the list of coauthors

1	Ronald Cools	[1]
2	Stephan Dahlke	[28] [33]
3	Josef Dick	[16] [30]
4	J. Elschner	[5]
5	R. D. Grigorieff	[21]
6	Kerstin Hesse	[22] [25] [31] [32]
7	Fred J. Hickernell	[14] [15]
8	Y. Jeon	[5]
9	Stephen Joe	[11]
10	Peter Kritzer	[30]
11	Frances Y. Kuo	[11] [23] [27] [29] [30] [32] [34]
12	Ch. Lubich	[2]
13	H. N. Mhaskar	[31]
14	Erich Novak	[4] [18]
15	Leszek Plaskota	[26]
16	Andrew V. Reztsov	[12]
17	Klaus Ritter	[28] [33]
18	Dongwoo Sheen	[7]
19	Alvise Sommariva	[35]
20	E. P. Stephan	[5]
21	Vidar Thomée	[2] [7]
22	J. F. Traub (Joseph F. Traub)	[28] [33]
23	Xiaoqun Wang	[16] [17] [20] [24]
24	Grzegorz W. Wasilkowski	[14] [15]
25	Benjamin J. Waterhouse	[27]
26	Arthur G. Werschultz	[9]
27	Robert S. Womersley	[10] [19]
28	Henryk Wozniakowski	[3] [4] [6] [8] [13] [16] [17] [18] [29] [34]