Stein's method, Malliavin calculus and infinite-dimensional Gaussian
Stein's method, Malliavin calculus and infinite-dimensional Gaussian
Stein's method, Malliavin calculus and infinite-dimensional Gaussian
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
[86] M. Schreiber (1969). Fermeture en probabilité de certains sous-espaces d’un espace L 2 .<br />
Zeitschrift Warsch. verw. Gebiete 14, 36-48.<br />
[87] E.V. Slud (1993). The moment problem for polynomial forms in normal r<strong>and</strong>om variables.<br />
Ann. Probab. 21(4), 2200-2214.<br />
[88] Ch. Stein (1972). A bound for the error in the normal approximation to the distribution<br />
of a sum of dependent r<strong>and</strong>om variables. In Proceedings of the Sixth Berkeley Symposium<br />
on Mathematical Statistics <strong>and</strong> Probability (Univ. California, Berkeley, Calif., 1970/1971),<br />
Vol. II: Probability theory, 583–602. Univ. California Press, Berkeley, Calif..<br />
[89] Ch. Stein (1986). Approximate computation of expectations. Institute of Mathematical Statistics<br />
Lecture Notes, Monograph Series, 7. Institute of Mathematical Statistics, Hayward,<br />
CA.<br />
[90] A. V. Skorohod (1975). On a generalization of a stochastic integral. Theory Probab. Appl.<br />
20, 219–233.<br />
[91] D.W. Stroock (1987). Homogeneous chaos revisited. Séminaire de Probabilités XXI, LNM<br />
1247, Springer-Verlag, Berlin Heidelberg New York, 1–8.<br />
[92] D. Surgailis (2000). CLTs for Polynomials of Linear Sequences: Diagram Formulae with<br />
Applications. Dans : Long Range Dependence. Birkhäuser, Basel, pp. 111-128.<br />
[93] D. Surgailis (2000). Non-CLT’s: U-Statistics, Multinomial Formula <strong>and</strong> Approximations<br />
of Multiple Wiener-Itô integrals. Dans : Long Range Dependence. Birkhäuser, Basel, pp.<br />
129-142.<br />
[94] A.H. Pickett (2004). Rates of convergence in 2 approximations via Stein’s <strong>method</strong>. Ph. D.<br />
Dissertation, Oxford University. Oxford, UK.<br />
[95] A.N. Tikhomirov (1980). Convergence rate in the central limit theorem for weakly dependent<br />
r<strong>and</strong>om variables. Theory Probab. Appl. 25, 790–809<br />
[96] H. van Zanten (2000). A multivariate central limit theorem for continuous local martingales.<br />
Stat. Probab. Lett., 50, 229-235.<br />
[97] F. Viens (2009). Stein’s lemma, <strong>Malliavin</strong> <strong>calculus</strong>, <strong>and</strong> tail bounds, with application to<br />
polymer ‡uctuation exponent. Preprint.<br />
[98] W. Whitt (1980). Some useful functions for functional limit theorems, Math. Op. Res. 5<br />
(1), 67-85<br />
[99] N. Wiener (1938). The homogeneous chaos. Amer. J. Math. 60, 879-936.<br />
66
Change language