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Substable and pseudo-isotropic processes. Connections with the geometry of subspaces of $L_α$

Autorzy

Misiewicz Jolanta K.

Seria

Rozprawy Matematyczne tom/nr w serii: 358 wydano: 1996

Zawartość

Pełne teksty:
rm35801.pdf

Warianty tytułu

Abstrakty

EN
CONTENTS
I. Introduction..........................................................................................................5
II. Pseudo-isotropic random vectors........................................................................9
  II.1. Symmetric stable vectors................................................................................9
  II.2. Pseudo-isotropic random vectors..................................................................15
  II.3. Elliptically contoured vectors..........................................................................23
  II.4. α-symmetric random vectors..........................................................................27
  II.5. Substable random vectors.............................................................................32
III. Exchangeability and pseudo-isotropy.................................................................35
  III.1. Pseudo-isotropic exchangeable sequences.................................................35
  III.2. Schoenberg-type theorems..........................................................................40
  III.3. Some generalizations...................................................................................43
IV. Stable and substable stochastic processes.....................................................45
  IV.1. Gaussian processes and Reproducing Kernel Hilbert Spaces....................45
  IV.2. Elliptically contoured processes..................................................................47
  IV.3. Symmetric stable stochastic processes......................................................50
  IV.4. Spectral representation of symmetric stable processes.............................56
  IV.5. Substable and pseudo-isotropic stochastic processes...............................59
  IV.6. $L_α $-dependent stochastic integrals.......................................................62
  IV.7. Random limit theorems...............................................................................63
V. Infinite divisibility of substable stochastic processes..........................................64
  V.1. Infinitely divisible distributions. Lévy measures............................................66
  V.2. Approximative logarithm................................................................................68
  V.3. Infinite divisibility of substable random vectors..............................................73
  V.4. Infinite divisibility of substable processes......................................................77
References...........................................................................................................80
Index......................................................................................................................90

Słowa kluczowe

Tematy

Kategoryzacja MSC:

Wydawca

Instytut Matematyczny Polskiej Akademii Nauk

Miejsce publikacji

Warszawa

Copyright

Seria

Rozprawy Matematyczne tom/nr w serii: 358

Liczba stron

91

Liczba rozdzia³ów

Opis fizyczny

Dissertationes Mathematicae, Tom CCCLVIII

Daty

wydano
1996
otrzymano
1995-03-02
poprawiono
1995-09-18

Twórcy

autor
Misiewicz Jolanta K.
jolanta@graf.im.pwr.wroc.pl
  • Institute of Mathematics, Technical University of Wrocław, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, Poland

Bibliografia

  • [1] A. de Acosta, Asymptotic behavior of stable measures, Ann. Probab. 5 (1977), 494-499.
  • [2] A. de Acosta, A. Araujo and E. Gine, On Poisson measures, Gaussian measures and the Central Limit Theorem in Banach spaces, Adv. in Probab. 5 (1978), 1-68.
  • [3] R. J. Adler, S. Cambanis and G. Samorodnitsky, On stable Markov processes, Stochastic Process. Appl. 34 (1990), 1-17.
  • [4] I. Aharoni, B. Maurey and B. S. Mityagin, Uniform embeddings of metric spaces and of Banach spaces into Hilbert spaces, Israel J. Math. 52 (1985), 251-265.
  • [5] R. Ahmad, Extension of the normal family to spherical families, Trabajos Estadist. 23 (1972), 51-60.
  • [6] P. M. Alberti, A note on stochastic operators on L₁-spaces and convex functions, J. Math. Anal. Appl. 130 (1988), 556-563.
  • [7] A. A. Alzaid, C. R. Rao and D. N. Shanbhag, Elliptical symmetry and exchangeability with characterizations, J. Multivariate Anal. 33 (1990), 1-16.
  • [8] G. Andersen and T. Kawata, Some integral transforms of characteristic functions, J. Math. Statist. 39 (1968), 1923-1931.
  • [9] T. W. Anderson, The integral of a symmetric unimodal function over a symmetric convex set and some probability inequalities, Proc. Amer. Math. Soc. 6 (1955), 170-176.
  • [10] D. F. Andrews and C. L. Mallows, Scale mixtures of normal distributions, J. Roy. Statist. Soc. 36 (1974), 99-102.
  • [11] N. Aronszajn, Theory of reproducing kernels, Trans. Amer. Math. Soc. 68 (1950), 337-404.
  • [12] R. Askey, Radial characteristic functions, Tech. Report Math. Research Center, University of Wisconsin-Madison, 1262.
  • [13] P. Assouad, Un espace hypermétrique non plongeable dans un espace L₁, C. R. Acad. Sci. Paris 285 (1977), 361-363.
  • [14] P. Assouad, Plongements isométriques dans L₁; aspect analytique, in: Initiation Seminar on Analysis, G. Choquet - M. Rogalski - J. Saint-Raymond, 19th Year, Exp. No. 14, Publ. Math. Univ. Pierre et Marie Curie, 41, Univ. Paris VI, Paris, 1980.
  • [15] P. Assouad, Caractérisations des sous-espaces normés de L₁ de dimension finie, Séminaire d'Analyse Fonctionnelle 1979-1980, preprint.
  • [16] J.-G. Bak, D. McMichael, J. Vance and S. Wainger, Fourier transforms of surface area measure on convex surfaces in R³, Amer. J. Math. 111 (1989), 633-668.
  • [17] K. Ball, Inequalities and sphere-packing in Lₚ, Israel J. Math. 58 (1987), 243-256.
  • [18] B. M. Bennett, On certain multivariate non-normal distribution, Proc. Cambridge Philos. Soc. 57 (1961), 434-436.
  • [19] C. Berg, J. P. R Christensen and P. Ressel, Harmonic Analysis on Semigroups. Theory of Positive Definite and Related Functions, Grad. Texts Math. 100, Springer, 1984.
  • [20] C. Berg et P. Ressel, Une forme abstraite du théorème de Schoenberg, Arch. Math. (Basel) 30 (1978), 55-61.
  • [21] R. H. Berk, Sphericity and the normal law, Ann. Probab. 14 (1986), 696-701.
  • [22] S. M. Berman, Second order random fields over lₚ with homogeneous and isotropic increments, Z. Wahrsch. Verw. Gebiete 12 (1969), 107-126.
  • [23] S. M. Berman, Stationarity, isotropy and sphericity in Lₚ, ibid. 54 (1980), 21-23.
  • [24] L. Bishop, D. A. S. Fraser and K. W. Ng, Some decompositions of spherical distributions, Statist. Hefte 20 (1979), 1-20.
  • [25] E. D. Bolker, A class of convex bodies, Trans. Amer. Math. Soc. 145 (1969), 323-345.
  • [26] C. Borell, Convex measures on locally convex spaces, Ark. Mat. 18 (1974), 239-252.
  • [27] C. Borell, Gaussian Radon measures on locally convex spaces, Math. Scand. 38 (1976), 265-284.
  • [28] G. E. P. Box, Spherical distributions, Ann. Math. Statist. 24 (1953), 687-688.
  • [29] J. Bretagnolle, D. Dacunha-Castelle et J. L. Krivine, Lois stables et espaces Lₚ, in: Symposium on Probability Methods in Analysis, Lecture Notes in Math. 31, Springer, 1967, 48-54.
  • [30] W. Bryc, On bivariate distributions with "rotation invariant" absolute moments, Sankhyā Ser. A 54 (1992), 432-439.
  • [31] W. Bryc, Normal distributions and characterizations, preprint, 1991.
  • [32] W. Bryc and A. Plucińska, A characterization of infinite Gaussian sequences by conditional moments, Sankhyā Ser. A 47 (1985), 166-173.
  • [33] T. Byczkowski, RKHS for Gaussian measures on metric vector spaces, Bull. Polish Acad. Sci. Math. 35 (1987), 93-103.
  • [34] T. Byczkowski and T. Inglot, Gaussian random series on metric vector spaces, Math. Z. 196 (1987), 39-50.
  • [35] S. Cambanis, C. D. Hardin and A. Weron, Ergodic properties of stationary stable processes, Stochastic Process. Appl. 24 (1987), 1-18.
  • [36] S. Cambanis, C. D. Hardin and A. Weron, Innovations and Wold decompositions of stable sequences, Probab. Theory Related Fields 79 (1988), 1-27.
  • [37] S. Cambanis, S. Huang and G. Simons, On the theory of elliptically contoured distributions, J. Multivariate Anal. 11 (1981), 368-385.
  • [38] S. Cambanis, R. Keener and G. Simons, On α-symmetric distributions, ibid. 13 (1983), 213-233.
  • [39] S. Cambanis and G. Miller, Some path properties of p-th order and symmetric stable processes, Ann. Probab. 8 (1980), 1148-1156.
  • [40] S. Cambanis and G. Simons, Probability and expectation inequalities, Z. Wahrsch. Verw. Gebiete 59 (1982), 1-25.
  • [41] S. Cambanis and A. R. Soltani, Prediction of stable processes, spectral and moving average representations, ibid. 66 (1984), 593-612.
  • [42] B. A. Chartres, A geometrical proof of a theorem due to Slepian, SIAM Rev. 5 (1963), 335-341.
  • [43] S. D. Chatterji and V. Mandrekar, Equivalence and singularity of Gaussian measures and applications, Probab. Anal. and Related Topics 1 (1978), 169-197.
  • [44] M. A. Chmielewski, Elliptically symmetric distributions: A review and bibliography, Internat. Statist. Rev. 49 (1981), 67-74.
  • [45] J. Chover, Certain convexity conditions on matrices with applications to Gaussian processes, Duke Math. J. 29 (1962), 141-150.
  • [46] J. P. R. Christensen and B. C. Ressel, Positive definite functions on abelian semi-groups, Math. Ann. 223 (1976), 253-274.
  • [47] J. P. R. Christensen and B. C. Ressel, Norm dependent positive definite functions on B-spaces, in: Lecture Notes in Math. 990, Springer, 1983, 47-53.
  • [48] J. J. Crawford, Elliptically contoured measures on finite-dimensional Banach spaces, Studia Math. 60 (1977), 15-32.
  • [49] R. Davidson, Arithmetic and other properties of certain Delphic semigroups, Z. Wahrsch. Verw. Gebiete 10 (1968), 146-172.
  • [50] S. J. Devlin, R. Gnanadesikan and J. Kettenring, Some multivariate applications of elliptical distributions, in: Essays in Probability and Statistics, Chapter 24, Shinko Tsusho Co., Tokyo, 1976, 365-393.
  • [51] S. J. Dilworth and A. L. Koldobsky, The Fourier transform of order statistics with applications to Lorenz spaces, preprint of Banach Space Bulletin Board, 1993.
  • [52] L. E. Dor, Potentials and isometric embeddings in L₁, Israel J. Math. 24 (1976), 260-268.
  • [53] R. M. Dudley, Singularity of measures on linear spaces, Z. Wahrsch. Verw. Gebiete 6 (1966), 129-132.
  • [54] R. M. Dudley and M. Kanter, Zero-one laws for stable measures, Proc. Amer. Math. Soc. 45 (1974), 245-252.
  • [55] A. J. Dunn, Estimation of the means of dependent variables, Ann. Math. Statist. 29 (1958), 1095-1111.
  • [56] A. J. Dunn, Confidence intervals for the means of dependent normally distributed variables, J. Amer. Statist. Assoc. 54 (1959), 613-621.
  • [57] A. Dvoretzky, Some results on convex bodies and Banach spaces, in: Proc. Internat. Sympos. on Linear Spaces, Academic Press, 1961, 123-160.
  • [58] M. L. Eaton, Characterization of distributions by the identical distribution of linear forms, J. Appl. Probab. 3 (1966), 481-494.
  • [59] M. L. Eaton, On the projections of isotropic distributions, Ann. Statist. 9 (1981), 391-400.
  • [60] B. Efron and R. A. Olshen, How broad is the class of normal scale mixtures, ibid. 6 (1978), 1159-1164.
  • [61] A. Ehrhard, Symétrisation dans l'espace de Gauss, Math. Scand. 53 (1983), 281-301.
  • [62] S. J. Einhorn, Functions positive definite in C[0,1], Proc. Amer. Math. Soc. 22 (1969), 702-703.
  • [63] K. T. Fang, S. Kotz and K. W. Ng, Symmetric Multivariate and Related Distributions, Chapman and Hall, London, 1990.
  • [64] C. Fefferman, M. Jodeit and M. D. Perlman, A spherical surface measure inequality for convex sets, Proc. Amer. Math. Soc. 33 (1972), 114-119.
  • [65] J. Feldman, Equivalence and perpendicularity of Gaussian processes, Pacific J. Math. 8 (1958), 699-708.
  • [66] W. Feller, An Introduction to Probability Theory and its Applications, Vol. II, Wiley, New York, 1966.
  • [67] T. S. Ferguson, A representation of the symmetric bivariate Cauchy distribution, Ann. Math. Statist. 33 (1962), 1256-1266.
  • [68] B. de Finetti, La prévision, ses lois logiques, ses sources subjectives, Ann. Inst. H. Poincaré 7 (1937), 1-68.
  • [69] P. Funk, Über eine geometrische Anwendung der Abelschen Integralgleichung, Math. Ann. 77 (1916), 129-135.
  • [70] I. N. Gel'fand, M. I. Graev and N. J. Vilenkin, Generalized Functions, Vol. V, Academic Press, New York, 1966.
  • [71] M. Ghosh and E. Pollack, Some properties of multivariate distributions with pdf's constant on ellipsoids, Comm. Statist. 4 (1975), 1157-1160.
  • [72] B. V. Gnedenko and A. N. Kolmogorov, Limit Distributions for Sums of Independent Random Variables, Addison-Wesley, Reading, 1954.
  • [73] B. V. Gnedenko and G. Fahim, On a transform theorem, Soviet Math. Dokl. 10 (1969), 769-772.
  • [74] F. S. Gordon and A. M. Mathai, Characterizations of the multivariate normal distribution using regression properties, Ann. Math. Statist. 43 (1972), 205-229.
  • [75] Y. Gordon, Elliptically contoured distributions, Probab. Theory Related Fields 76 (1987), 429-438.
  • [76] I. S. Gradshteĭn and I. M. Ryzhik, Tables of Integrals, Sums, Series and Products, Fizmatgiz, Moscow, 1962 (in Russian).
  • [77] R. Grząślewicz, Plane sections of the unit ball of lₚ, Acta Math. Hungar. 52 (1988), 219-225.
  • [78] R. Grząślewicz and J. K. Misiewicz, Isometric embeddings of subspaces of $L_α$-spaces and maximal representation for symmetric stable processes, preprint, 1995.
  • [79] A. F. Gualtierotti, Some remarks on spherically invariant distributions, J. Multivariate Anal. 4 (1974), 347-349.
  • [80] A. F. Gualtierotti, A likelihood ratio formula for spherically invariant processes, IEEE Trans. Inform. Theory 22 (1976), 610.
  • [81] R. D. Gupta, J. K. Misiewicz and D. St. P. Richards, Infinite sequences with sign-symmetric Liouville type distributions, Probab. Math. Statist. 16 (1996), 29-44.
  • [82] S. Das Gupta, M. L. Eaton, I. Olkin, M. Perlman, L. J. Savage and M. Sobel, Inequalities on the probability content of convex regions for elliptically contoured distributions, in: Proceedings of the Sixth Berkeley Symposium on Mathematical Statistics and Probability II, Univ. of California Press, Berkeley, 1972, 241-264.
  • [83] C. D. Hardin, Isometries on subspaces of $L^p$, Indiana Univ. Math. J. 30 (1981), 449-465.
  • [84] C. D. Hardin, On the linearity of regression, Z. Wahrsch. Verw. Gebiete 61 (1982), 293-302.
  • [85] C. D. Hardin, On the spectral representation of symmetric stable processes, J. Multivariate Anal. 12 (1982), 385-401.
  • [86] S. Helgason, The Radon Transform, Birkhäuser, Berlin, 1980.
  • [87] A. Hertle, Gaussian plane and spherical means in separable Hilbert spaces, in: Measure Theory, Springer, 1945, 314-335.
  • [88] A. Hertle, Gaussian surface measures and the Radon transform on separable Banach spaces, in: Lecture Notes in Math. 794, Springer, 1980, 513-531.
  • [89] A. Hertle, Zur Radon Transformation von Funktionen und Massen, Dissertation, Univ. Erlangen-Nürnberg, 1979.
  • [90] A. Hertle, On the asymptotic behaviour of Gaussian spherical integrals, in: Probability in Banach Spaces IV, Lecture Notes in Math. 990, Springer, 221-234.
  • [91] C. S. Herz, Fourier transforms related to convex sets, Ann. of Math. 75 (1962), 81-92.
  • [92] C. S. Herz, A class of negative definite functions, Proc. Amer. Math. Soc. 14 (1963), 670-676.
  • [93] E. Hewitt and K. A. Ross, Abstract Harmonic Analysis, Vol. II, Grundlehren Math. Wiss. 152, Springer, Berlin, 1970.
  • [94] J. P. Holmes, W. Hudson and J. D. Mason, Operator-stable laws, multiple exponents and elliptical symmetry, Ann. Probab. 10 (1982), 602-612.
  • [95] S. T. Huang and S. Cambanis, Spherically invariant processes; their nonlinear structure, discrimination, and estimation, J. Multivariate Anal. 9 (1979), 59-83.
  • [96] I. A. Ibragimov and Yu. V. Linnik, Independent and Stationary Sequences of Random Variables, J. F. C. Kingman (ed.), Wolters-Noordhoff, Groningen, 1971.
  • [97] Pang I-Min, Simple proof of equivalence conditions for measures induced by Gaussian processes, Selected Transl. in Math. Statist. and Probab. 12 (1973), 103-118.
  • [98] A. Janicki and A. Weron, Simulation and Chaotic Behaviour of α-stable Stochastic Processes, Marcel Dekker, New York, 1994.
  • [99] D. R. Jensen, Linear models without moments, Biometrica 66 (1979), 611-617.
  • [100] K. Joag-dev, M. D. Perlman and L. D. Pitt, Association of normal random variables and Slepian's inequality, Ann. Probab. 11 (1983), 451-455.
  • [101] K. Jogdeo, A simple proof of an inequality for multivariate normal probabilities of rectangles, Ann. Math. Statist. 41 (1970), 1357-1359.
  • [102] M. E. Johnson and J.S. Ramberg, Elliptically symmetric distributions: Characterization and random variate generation, A.S.A. Proc. Statist. Comp. Sect. 1977, 262-265.
  • [103] Z. J. Jurek, On Lévy (spectral) measures of integral form on Banach spaces, Probab. Math. Statist. 11 (1990), 139-148.
  • [104] O. Kallenberg, Infinitely divisible processes with interchangeable increments and random measures under convolution, Z. Wahrsch. Verw. Gebiete 32 (1975), 309-321.
  • [105] O. Kallenberg, Some new representations in bivariate exchangeability, Probab. Theory Related Fields 77 (1988), 415-455.
  • [106] O. Kallenberg, Characterizations and embedding properties in exchangeability, Z. Wahrsch. Verw. Gebiete 60 (1982), 249-281.
  • [107] O. Kallenberg, Some linear random functionals characterized by $L_α$-symmetries, in: Stochastic Processes: A Festschrift in Honour of Gopinath Kallianpur, Springer, New York, 1983, 171-180.
  • [108] G. Kallianpur, The role of reproducing kernel Hilbert spaces in the study of Gaussian processes, in: Advances in Probability and Related Topics, Vol. 2, P. Ney (ed.), M. Dekker, New York, 1970.
  • [109] G. Kallianpur, Abstract Wiener spaces and reproducing kernel Hilbert spaces, Z. Wahrsch. 17 (1971), 345-347.
  • [110] G. Kallianpur and H. Oodaira, The equivalence and singularity of Gaussian processes, in: Proc. Sympos. on Time Series Analysis, Wiley, New York, 1963, 279-291.
  • [111] G. Kallianpur and H. Oodaira, Non-anticipative representations of equivalent Gaussian processes, Ann. Probab. 1 (1973), 104-122.
  • [112] M. Kanter, Linear sample spaces and stable processes, J. Funct. Anal. 9 (1972), 441-459.
  • [113] M. Kanter, A representation theorem for $L^p$ spaces, Proc. Amer. Math. Soc. 31 (1972), 472-474.
  • [114] M. Kanter, Stable laws and the embedding of $L^p$ spaces, Amer. Math. Monthly 80 (1973), 403-407.
  • [115] Y. Kasahara and M. Maejima, Weighted sums of i.i.d. random variables attracted to integrals of stable processes, Probab. Theory Related Fields 78 (1988), 75-96.
  • [116] D. Kelker, Distribution theory of spherical distributions and some characterization theorems, Technical Report rm. 210, dk-1., Michigan State University, 1958.
  • [117] D. Kelker, Distribution theory of spherical distributions and a location-scale parameter generalization, Sankhyā Ser. A 32 (1970), 419-438.
  • [118] D. Kelker, Infinite divisibility and variance mixtures of the normal distribution, Ann. Math. Statist. 42 (1971), 802-808.
  • [119] J. F. C. Kingman, Random walks with spherical symmetry, Acta Math. 109 (1963), 11-53.
  • [120] J. F. C. Kingman, On random sequences with spherical symmetry, Biometrica 59 (1972), 492-494.
  • [121] A. L. Koldobsky, Schoenberg's problem on positive definite functions, Algebra and Analysis (Leningrad Math. J.) 3 (1991), 78-85.
  • [122] A. L. Koldobsky, Convolution equations in certain Banach spaces, Proc. Amer. Math. Soc. 111 (1991), 755-765.
  • [123] A. L. Koldobsky, A Banach subspace of $L_{1/2}$ which does not embed in L₁ (isometric version), preprint of Banach Space Bulletin Board, 1993.
  • [124] A. L. Koldobsky, Generalized Lévy representation of norms and isometric embeddings into Lₚ-spaces, Ann. Inst. H. Poincaré 28 (1992), 335-353.
  • [125] A. L. Koldobsky, Common subspaces of Lₚ-spaces, Proc. Amer. Math. Sci. 122 (1994), 207-212.
  • [126] L. S. Kudina, On decomposition of radially symmetric distributions, Theory Probab. Appl. 20 (1975), 644-648.
  • [127] J. Kuelbs, Positive definite symmetric functions on linear spaces, J. Math. Anal. Appl. 42 (1973), 413-426.
  • [128] J. Kuelbs, Representation theorem for symmetric stable processes and stable measures on H, Z. Wahrsch. Verw. Gebiete 26 (1973), 259-271.
  • [129] H.-H. Kuo, Gaussian Measures in Banach Spaces, Lecture Notes in Math. 463, Springer, Berlin, 1973.
  • [130] Yu. G. Kuritsyn, Multidimensional versions and two Schoenberg problems, in: Stability Problems for Stochastic Models, Proc. of the Seminar, Moscow, Inst. for System Studies, Moscow, 1989, 72-79.
  • [131] Yu. G. Kuritsyn and A. V. Shestakov, On α-symmetric distributions, Theory Probab. Appl. 29 (1984), 804-806.
  • [132] S. Kwapień and W. A. Woyczyński, Random Series and Stochastic Integrals--Single and Multiple, Springer, New York, 1992.
  • [133] A. G. Laurent, Applications of fractional calculus to spherical (radial) probability models and generalizations, in: Fractional Calculus and its Applications, Lecture Notes in Math. 457, Springer, New York, 1974, 256-266.
  • [134] M. Ledoux and M. Talagrand, Probability in Banach Spaces, Isoperimetry and Processes, Springer, 1991.
  • [135] E. Lehman, Some concepts of dependence, Ann. Math. Statist. 37 (1966), 1137-1153.
  • [136] G. Letac, Isotropy and sphericity; some characterizations of the normal distribution, Ann. Statist. 9 (1981), 408-417.
  • [137] H. M. Leung and S. Cambanis, On the rate distortion of spherically invariant vectors and sequences, IEEE Trans. Inform. Theory IT-24 (1978), 367-373.
  • [138] P. Lévy, Théorie de l'addition des variables aléatoires, Gauthier-Villars, Paris, 1937.
  • [139] W. Linde, Infinitely divisible and stable measures on Banach spaces, Teubner Texte zur Math. 58, Leipzig, 1983.
  • [140] W. Linde and P. Mathe, Conditional symmetries of stable measures on ℝⁿ, Ann. Inst. H. Poincaré Sect. B 19 (1983), 57-69.
  • [141] J. Lindenstrauss, On the extension of operators with finite dimensional range, Illinois J. Math. 8 (1964), 488-499.
  • [142] J. Lindenstrauss and L. Tzafriri, Classical Banach Spaces, Lecture Notes in Math. 338, Springer, 1973.
  • [143] A. D. Lisitsky, One more solution of the Schoenberg problem, preprint, 1991.
  • [144] D. Louie, B. S. Rajput and A. Tortrat, A zero-one dichotomy theorem for r-semi-stable laws on infinite dimensional linear spaces, Sankhyā Ser. A 42 (1980), 9-18.
  • [145] A. Łuczak, Elliptical symmetry and characterization of operator-stable and operator-semi-stable measures, Ann. Probab. 12 (1984), 1217-1223.
  • [146] E. Lukacs, Characteristic Functions, Griffin, London, 1960.
  • [147] E. Lukacs and R. G. Laha, Applications of Characteristic Functions, Hafner, 1964.
  • [148] C. L. Mallows, A note on asymptotic joint normality, Ann. Math. Statist. 43 (1972), 508-515.
  • [149] V. Mandrekar, Multiparameter Gaussian processes and their Markov property, lecture notes, EPF-Lausanne, 1975.
  • [150] D. J. Marcus, Non-stable laws with all projections stable, Z. Wahrsch. Verw. Gebiete 64 (1983), 139-156.
  • [151] M. Marques and S. Cambanis, Admissible and singular translates of stable processes, in: Probability Theory on Vector Spaces IV, Łańcut 1987, Lecture Notes in Math. 1391, Springer, 1989, 239-257.
  • [152] G. Marsaglia, Choosing a point from the surface of a sphere, Ann. Math. Statist. 43 (1972), 645-646.
  • [153] R. D. Martin and S. C. Schwartz, On mixture, quasi-mixture and nearly normal random processes, ibid. 43 (1972), 948-967.
  • [154] E. Masry and S. Cambanis, Spectral density estimation for stationary stable processes, Stochastic Process. Appl. 18 (1984), 1-31.
  • [155] D. K. McGraw and J. F. Wagner, Elliptically symmetric distributions, IEEE Trans. Inform. Theory 14 (1968), 110-120.
  • [156] M. B. Mendel, Development of Bayesian parametric theory with applications to control, Doctoral dissertation, MIT, 1989.
  • [157] L. Mezrag, Théorèmes de factorisation et de prolongement pour les opérateurs à valeurs dans les espaces Lₚ, pour p<1, C. R. Acad. Sci. Paris Sér. I 300 (1985), 289-302.
  • [158] J. K. Misiewicz, Elliptically contoured measures on $R^∞$, Bull. Acad. Polon. Sci. Sér. Sci. Math. 30 (1982), 283-290.
  • [159] J. K. Misiewicz, Some remarks on elliptically contoured measures, in: Probability Theory on Vector Spaces III, Lecture Notes in Math. 1080, Springer, 1984, 170-174.
  • [160] J. K. Misiewicz, Characterization of the elliptically contoured measures on infinite-dimensional Banach spaces, Probab. Math. Statist. 4 (1984), 47-56.
  • [161] J. K. Misiewicz, Infinite divisibility of elliptically contoured measures, Bull. Polish Acad. Sci. Math. 33 (1985), 73-76.
  • [162] J. K. Misiewicz, On norm-dependent positive definite functions, Soobshch. Akad. Nauk Gruzin. SSR 130 (1988), 253-256.
  • [163] J. K. Misiewicz, Positive definite functions on $l^∞$, Statist. Probab. Lett. 8 (1989), 255-260.
  • [164] J. K. Misiewicz, Some remarks on measures with n-dimensional versions, Probab. Math. Statist. 13 (1992), 71-76.
  • [165] J. K. Misiewicz, L₁-dependent sequences of random variables, in: L₁-statistical Analysis and Related Methods, Y. Dodge (ed.), Elsevier, 1992, 431-437.
  • [166] J. K. Misiewicz, Infinite divisibility of substable processes. I. Geometry of subspaces of $L_α$-spaces, Stochastic Process. Appl. 56 (1995), 101-116.
  • [167] J. K. Misiewicz, Infinite divisibility of substable processes. II. Logarithm of probability measure, in: Proceedings of XVII Seminar on Stability Problems, Kazan 1995, to appear.
  • [168] J. K. Misiewicz, Exchangeability and pseudo-isotropy, Demonstratio Math. 29 (1996), 107-122.
  • [169] J. K. Misiewicz, Some remarks on spectral representation for symmetric stable processes, in: Proceedings of XVII Seminar on Stability Problems, Eger 1994, to appear.
  • [170] J. K. Misiewicz and C. Ryll-Nardzewski, Norm dependent positive definite functions and measures on vector spaces, in: Probability Theory on Vector Spaces IV, Łańcut 1987, Lecture Notes in Math. 1391, Springer, 1989, 284-292.
  • [171] J. K. Misiewicz and D. St. P. Richards, Necessary conditions for α-symmetric random vectors, preprint, 1991.
  • [172] J. K. Misiewicz and C. L. Scheffer, Pseudo-isotropic measures, Nieuw Arch. Wisk. 8 (1990), 111-152.
  • [173] Y. Mittal, A new mixing condition for stationary Gaussian processes, Ann. Probab. 7 (1979), 724-730.
  • [174] D. S. Moak, Completely monotonic functions of the form $s^{-b} (s² + 1)^{-a}$, Rocky Mountain J. Math. 17 (1987), 719-725.
  • [175] D. Nash and M. S. Klamkin, A spherical characterization of the normal distribution, J. Multivariate Anal. 55 (1976), 156-158.
  • [176] A. Neyman, Representation of Lₚ-norms and isometric embedding in Lₚ-spaces, Israel J. Math. 48 (1984), 129-138.
  • [177] I. Nimmo-Smith, Linear regression and sphericity, Biometrica 66 (1979), 390-392.
  • [178] J. P. Nolan, Path properties of index-b stable fields, Ann. Probab. 16 (1988), 1596-1607.
  • [179] J. P. Nolan, Continuity of symmetric stable processes, J. Multivariate Anal. 29 (1989), 84-93.
  • [180] Y. Okazaki, Elliptically contoured measures on locally convex spaces, preprint, 1973.
  • [181] K. R. Parthasarathy, Probability Measures on Metric Spaces, Academic Press, New York, 1967.
  • [182] G. P. Patil and M. T. Boswell, Characteristic property of the multivariate normal density function and some of its applications, Ann. Math. Statist. 41 (1970), 1970-1977.
  • [183] V. J. Paulauskas, Some remarks on multivariate stable distributions, J. Multivariate Anal. 6 (1976), 356-368.
  • [184] G. Pisier, Factorization of Linear Operators and Geometry of Banach Spaces, CBMS Regional Conf. Ser. in Math. 60, Amer. Math. Soc., 1986.
  • [185] A. I. Plotkin, Continuation of Lₚ-isometries, J. Soviet Math. 2 (1974), 143-165.
  • [186] A. I. Plotkin, An algebra generated by translation operators and $L^p$-norms, in: Functional Analysis 6, Ul'yanovsk, 1976, 112-121 (in Russian).
  • [187] G. Pólya, Herleitung des Gauss'schen Fehlergesetzes aus einer Funktionalgleichung, Math. Z. 18 (1923), 96-108.
  • [188] A. P. Prudnikov, Yu. A. Brychkov and O. I. Marychev, Integrals and Series, Nauka, Moscow, 1981 (in Russian).
  • [189] J. Radon, Über die Bestimmung von Funktionen durch ihre Integralwerte langs gewisser Mannigfaltigkeiten, Ber. Verh. Sachs. Akad. Wiss. Leipzig Math. Natur. Kl. 69 (1917), 262-277.
  • [190] B. S. Rajput, A representation of the characteristic function of a stable probability measure on certain topological vector spaces, J. Multivariate Anal. 6 (1976), 592-600.
  • [191] B. S. Rajput, On the support of certain symmetric stable probability measures on topological vector spaces, Proc. Amer. Math. Soc. 63 (1977), 306-312.
  • [192] B. S. Rajput, On the support of symmetric infinitely divisible and stable probability measures on locally convex topological vector spaces, ibid. 66 (1977), 331-334.
  • [193] B. S. Rajput and N. N. Vakhania, On the support of Gaussian probability measures on locally convex topological vector spaces, in: Multivariate Analysis IV, P. R. Krishnaiah, North-Holland, 1977, 297-309.
  • [194] A. Rényi, On projections of probability distributions, Acta Math. Acad. Sci. Hungar. 3 (1952), 131-141.
  • [195] P. Ressel, De Finetti-type theorems, an analytical approach, Ann. Probab. 13 (1985), 898-922.
  • [196] P. Ressel, Integral representations for distributions of symmetric stochastic processes, Probab. Theory Related Fields 79 (1988), 451-467.
  • [197] P. Ressel and W. Schmidtchen, A new characterization of Laplace functionals and probability generating functionals, ibid. 88 (1991), 195-213.
  • [198] W. T. Rhee, On the distribution of the norm for Gaussian measure, Ann. Inst. H. Poincaré Probab. Statist. 20 (1984), 277-286.
  • [199] D. St. P. Richards, Positive definite symmetric functions on finite dimensional spaces, Statist. Probab. Lett. 3 (1985), 325-329.
  • [200] D. St. P. Richards, Positive definite symmetric functions on finite dimensional spaces. I. Application of the Radon transform, J. Multivariate Anal. 19 (1986), 280-298.
  • [201] H. Rosenthal, On subspaces of $L^p$, Ann. of Math. 97 (1973), 344-373.
  • [202] J. Rosiński, On uniqueness of the spectral representation of stable processes, preprint, University of Tennessee, Knoxville, 1993.
  • [203] W. Rudin, Functional Analysis, McGraw-Hill, 1973.
  • [204] W. Rudin, Lₚ-isometries and equimeasurability, Indiana Univ. Math. J. 25 (1976), 215-228.
  • [205] Z. Rychlik, On some inequalities for the concentration function of the sum of a random number of independent random variables, Bull. Acad. Polon. Sci. 22 (1974), 65-70.
  • [206] Z. Rychlik and D. Szynal, On the limit behaviour of sums of a random number of independent random variables, Colloq. Math. 28 (1973), 147-159.
  • [207] Z. Rychlik and D. Szynal, On the convergence rates in the central limit theorem for the sums of a random number of independent identically distributed random variables, Bull. Acad. Polon. Sci. 22 (1974), 683-690.
  • [208] C. Ryll-Nardzewski, On stationary sequences of random variables and the de Finetti's equivalence, Colloq. Math. 4 (1957), 149-156.
  • [209] G. Samorodnitsky, Extrema of skewed stable processes, Stochastic Process. Appl. 30 (1988), 17-39.
  • [210] G. Samorodnitsky and M. Taqqu, 1/α-self-similar α-stable processes with stationary increments, J. Multivariate Anal. 35 (1990), 308-313.
  • [211] G. Samorodnitsky and M. Taqqu, Conditional moments and linear regression for stable random variables, Stochastic Process. Appl. 39 (1991), 183-199.
  • [212] G. Samorodnitsky and M. Taqqu, Stable non-Gaussian Random Processes: Stochastic Models with Infinite Variance, Chapman & Hall, London, 1993.
  • [213] M. Schilder, Some structure theorems for the symmetric stable laws, Ann. Math. Statist. 41 (1970), 412-421.
  • [214] G. Schechtman, Fine embeddings of finite dimensional subspaces of Lₚ, 1 ≤ p < 2, into $l₁^m$, Proc. Amer. Math. Soc. 94 (1985), 617-623.
  • [215] I. J. Schoenberg, Metric spaces and completely monotone functions, Ann. of Math. 38 (1938), 811-841.
  • [216] I. J. Schoenberg, On certain metric spaces arising from Euclidean spaces by change of metric and their embedding in Hilbert spaces, ibid. 38 (1938), 787-793.
  • [217] I. J. Schoenberg, Metric spaces and positive definite functions, Trans. Amer. Math. Soc. 44 (1938), 522-536.
  • [218] M. Schreiber, Quelques remarques sur les caractérisations des espaces $L^p$, 0 ≤ p < 1, Ann. Inst. H. Poincaré 8 (1972), 83-92.
  • [219] L. Schwartz, Radon measures on arbitrary topological spaces and cylindrical measures, Tata Institute of Fundamental Research, Oxford Univ. Press, 1973.
  • [220] A. J. Scott, A note on conservative confidence regions for the means of multivariate normal, Ann. Math. Statist. 38 (1967), 278-280.
  • [221] Z. Sidak, Rectangular confidence regions for the means of multivariate normal distributions, J. Amer. Statist. Assoc. 62 (1967), 626-633.
  • [222] Z. Sidak, On multivariate normal probabilities of rectangles, their dependence on correlations, Ann. Math. Statist. 39 (1968), 1425-1434.
  • [223] D. Slepian, The one-sided barrier problem for Gaussian noise, Bell System Tech. J. 41 (1962), 463-501.
  • [224] W. Smoleński and R. Sztencel, On admissible translates of sub-Gaussian stable measures, to appear.
  • [225] F. W. Steutel, A class of infinitely divisible mixtures, Ann. Math. Statist. 39 (1968), 1153-1157.
  • [226] P. J. Szabłowski, Expansions of E(X| Y + εZ) and their applications to the analysis of elliptically contoured measures, to appear.
  • [227] P. J. Szabłowski, On the properties of marginal densities and conditional moments of elliptically contoured measures, in: Proceedings 6th Pannonian Sympos. Math. Statist. Probab. Theory, vol. A, 1987, 237-252.
  • [228] P. J. Szabłowski, From Schoenberg's problem to rotation invariant moments. Not always standard exploitation of $L_q$-norms, in: L₁-statistical Analysis and Related Methods., Y. Dodge (ed.), Elsevier, 1992, 439-451.
  • [229] M. Talagrand, On subsets of $L^p$ and p-stable processes, Ann. Inst. H. Poincaré 25 (1989), 153-166.
  • [230] D. Teichroew, The mixture of normal distributions with different variances, Ann. Math. Statist. 29 (1958), 510-512.
  • [231] A. Tortrat, Sur les mélanges de lois indéfiniment divisibles, C. R. Acad. Sci. Paris Sér. A-B 269 (1969), 784-786.
  • [232] A. Tortrat, Mélange de lois et lois indéfiniment divisibles, in: Proc. IVth Conf. Probab. Theory, Braşov, Romania, 1971, 227-244.
  • [233] A. Tortrat, Lois e(λ) dans les espaces vectoriels et lois stables, Z. Wahrsch. Verw. Gebiete 37 (1976), 175-182.
  • [234] N. N. Vakhania, W. I. Tarieladze and S. A. Chobanian, Probability Distributions on Banach Spaces, Nauka, Moscow, 1985 (in Russian).
  • [235] A. I. Velikoivanenko, Multidimensional analogues of the Pólya theorem, Theor. Probab. Math. Statist. 34 (1987), 39-46.
  • [236] A. M. Vershik, Some characteristic properties of Gaussian stochastic processes, Theor. Probab. Appl. 9 (1964), 353-356.
  • [237] A. Weron, Stable processes and measures; a survey, in: Probability Theory on Vector Spaces III, D. Szynal and A. Weron (eds.), Lecture Notes in Math. 1080, Springer, New York, 1984, 300-364.
  • [238] A. Weron, A remark on disjointness results for stable processes, Studia Math. 105 (1993), 253-254.
  • [239] R. E. Williamson, Multiply monotone functions and their Laplace transforms, Duke Math. J. 23 (1956), 189-207.
  • [240] H. S. Witsenhausen, Metric inequalities and the zonoid problem, Proc. Amer. Math. Soc. 40 (1973), 517-520.
  • [241] A. Wodziński, Reproducing kernels for stable measures on Banach spaces, Report of Technical Univ. of Wrocław, 1985.
  • [242] J. S. Wolfe, On the unimodality of spherically symmetric stable distribution functions, J. Multivariate Anal. 5 (1975), 236-242.
  • [243] W. Woyczyński, Geometry and martingales in Banach spaces, Part II: independent increments, in: Adv. in Probab. 4, Dekker, 1978, 267-517.
  • [244] K. Yao, A representation theorem and its applications to spherically invariant random processes, IEEE Trans. Inform. Theory I-T-19 (1973), 600-608.
  • [245] W. P. Zastawny, Positive definite norm-dependent functions. Solution of the Schoenberg theorem, preprint, 1991.
  • [246] J. Zinn, Admissible translates of stable measures, Studia Math. 54 (1976), 245-257.
  • [247] V. M. Zolotarev, One-dimensional Stable Distributions, Transl. Math. Monographs 65, Amer. Math. Soc., Providence.
  • [248] V. M. Zolotarev, Distribution of the superposition of infinitely subdivisible processes, Theory Probab. Appl. 3 (1958), 197-200.
  • [249] T. Żak, Admissible translates for sub-Gaussian measures, Probab. Math. Statist. 9 (1988), 125-131.

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1991 Mathematics Subject Classification: Primary 46A15, 60B11; Secondary 60G07, 46B20, 60E07, 60K99.

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