28 citations to https://www.mathnet.ru/rus/tvp2211
-
Ф. Гётце, Ю. С. Елисеева, А. Ю. Зайцев, “Неравенства Арака для функций концентрации и проблема Литтлвуда–Оффорда”, Теория вероятн. и ее примен., 62:2 (2017), 241–266 ; F. Götze, Yu. S. Eliseeva, A. Yu. Zaitsev, “Arak inequalities for concentration functions and the Littlewood–Offord problem”, Theory Probab. Appl., 62:2 (2018), 196–215
-
Ф. Гётце, А. Ю. Зайцев, “Редкие события и пуассоновские точечные процессы”, Вероятность и статистика. 26, Зап. научн. сем. ПОМИ, 466, ПОМИ, СПб., 2017, 109–119
-
A. Elijio, V. Čekanavičius, “Compound Poisson approximation to weighted sums of symmetric discrete variables”, Ann Inst Stat Math, 67:1 (2015), 195
-
Bero Roos, “On variational bounds in the compound Poisson approximation of the individual risk model”, Insurance: Mathematics and Economics, 40:3 (2007), 403
-
Roos B., “On Hipp's compound Poisson approximations via concentration functions”, Bernoulli, 11:3 (2005), 533–557
-
V. Cekanavicius, A. Elijio, “Lower-Bound Estimates for Poisson-Type Approximations”, Lith Math J, 45:4 (2005), 405
-
А. Ю. Зайцев, “Об аппроксимации выборки пуассоновским точечным процессом”, Вероятность и статистика. 6, Зап. научн. сем. ПОМИ, 298, ПОМИ, СПб., 2003, 111–125 ; A. Yu. Zaitsev, “On approximation of the sample by a Poisson point process”, J. Math. Sci. (N. Y.), 128:1 (2005), 2556–2563
-
Roos B., “Kerstan's method for compound Poisson approximation”, Annals of Probability, 31:4 (2003), 1754–1771
-
Cekanavicius V., Wang Y.H., “Compound Poisson approximations for sums of discrete nonlattice variables”, Advances in Applied Probability, 35:1 (2003), 228–250
-
V. Čekanavičius, Y. H. Wang, “Compound Poisson approximations for sums of discrete nonlattice variables”, Adv. Appl. Probab., 35:01 (2003), 228