References

1. Broise, Anne. Transformations dilatantes de l'intervalle et théorèmes limites.(French) [Expanding maps of the interval and limit theorems] Études spectrales d'opérateurs de transfert et applications. Astérisque 1996, no. 238, 1--109. MR1634271 (2000d:37028)
2. Davydov, Yu. A., Mixing conditions for Markov chains. Theor. Probab. Appl. 18. 312-328. (1973).
3. Dedecker, Jérôme; Prieur, Clémentine. An empirical central limit theorem for dependent sequences. Stochastic Process. Appl. 117 (2007), no. 1, 121--142. MR2287106 (2008c:60029)
4. Dedecker, Jérôme; Rio, Emmanuel. On mean central limit theorems for stationary sequences. Ann. Inst. Henri Poincaré Probab. Stat. 44 (2008), no. 4, 693--726. MR2446294
5. Dudley R. M., Real analysis and probability. Wadworsth Inc., Belmont, California. (1989).
6. Gordin, M. I., The central limit theorem for stationary processes, Dokl. Akad. Nauk SSSR. 188. 739-741. (1969).
7. Heyde, C. C. and Brown, B. M., On the departure from normality of a certain class of martingales. Ann. Math. Statist. 41. 2161--2165. (1970).
8. Ibragimov, I. A., On the accuracy of Gaussian approximation to the distribution functions of sums of independent variables. Theor. Probab. Appl. 11. 559-579. (1966).
9. Fréchet, Maurice. Sur la distance de deux lois de probabilité.(French) C. R. Acad. Sci. Paris 244 (1957), 689--692. MR0083210 (18,679g)
10. Jan, C., Vitesse de convergence dans le TCL pour des processus associ'es `a des systemes dynamiques et aux produits de matrices aleatoires. These de l'universite de Rennes 1. (2001).
11. Kantorovich, L.V. and Rubinstein G.Sh., Sur un espace de fonctions completement additives. Vestnik Leningrad Univ., 13 (Ser. Mat. Astron. 2), 52-59. (1958)
12. Peligrad, Magda; Utev, Sergey. A new maximal inequality and invariance principle for stationary sequences. Ann. Probab. 33 (2005), no. 2, 798--815. MR2123210 (2005m:60047)
13. Pene F., Rate of convergence in the multidimensional central limit theorem for stationary processes. Application to the Knudsen gas and to the Sinai billiard. Annals of applied probability 15, no. 4. 2331-2392. (2005).
14. Rio, Emmanuel. Covariance inequalities for strongly mixing processes. Ann. Inst. H. Poincaré Probab. Statist. 29 (1993), no. 4, 587--597. MR1251142 (94j:60045)
15. Rio, Emmanuel. Distances minimales et distances idéales.(French) [Minimal distances and ideal distances] C. R. Acad. Sci. Paris Sér. I Math. 326 (1998), no. 9, 1127--1130. MR1647215 (99m:60025)
16. Rio, Emmanuel. Théorie asymptotique des processus aléatoires faiblement dépendants.(French) [Asymptotic theory of weakly dependent random processes] Mathématiques & Applications (Berlin) [Mathematics & Applications], 31. Springer-Verlag, Berlin, 2000. x+169 pp. ISBN: 3-540-65979-X MR2117923 (2005k:60001)
17. Rio, E., Upper bounds for minimal distances in the central limit theorem. Submitted to Ann. Inst. H. Poincare Probab. Statist. (2007).
18. Rosenblatt, M. A central limit theorem and a strong mixing condition. Proc. Nat. Acad. Sci. U. S. A. 42 (1956), 43--47. MR0074711 (17,635b)
19. Sakhanenko, A. I. Estimates in an invariance principle.(Russian) Limit theorems of probability theory, 27--44, 175, Trudy Inst. Mat., 5, ``Nauka'' Sibirsk. Otdel., Novosibirsk, 1985. MR0821751 (87c:60035)
20. Volný, Dalibor. Approximating martingales and the central limit theorem for strictly stationary processes. Stochastic Process. Appl. 44 (1993), no. 1, 41--74. MR1198662 (93m:28021)
21. Wu, W. B. and Zhao, Z., Moderate deviations for stationary processes. Technical Report 571, University of Chicago. (2006)
22. Zolotarev, V. M. Metric distances in spaces of random variables and of their distributions.(Russian) Mat. Sb. (N.S.) 101(143) (1976), no. 3, 416--454, 456. MR0467869 (57 #7720)