[1] |
Boylan, S. L., Uniqueness of solutions to function-space differential equations using infinite series and integral methods, J. Functional Analysis, 13, 77-96 (1973) · Zbl 0261.46039 |
[2] |
Cameron, R. H., The translation pathology of Wiener-space, Duke Math. J., 21, 623-627 (1954) · Zbl 0057.09601 |
[3] |
Cameron, R. H.; Martin, W. T., Fourier-Wiener transforms of functionals belonging to \(L_2\) over the space \(C\), Duke Math. J., 14, 99-107 (1947) · Zbl 0029.40002 |
[4] |
Ciesielski, Z., Hölder conditions for realizations of Gaussian processes, Trans. Amer. Math. Soc., 99, 403-413 (1961) · Zbl 0133.10502 |
[5] |
Donsker, M. D.; Lions, J. L., Volterra variational equations, boundary value problems and function-space integrals, Acta Math., 108, 147-228 (1962) · Zbl 0145.13402 |
[6] |
Daletskii, Yu. L., Infinite-dimensional elliptic operators and parabolic equations connected with them, Russian Math. Surveys, 22, 1-52 (1967) · Zbl 0164.41304 |
[7] |
Kuo, H.; Piech, M. Ann, Stochastic integrals and parabolic equations in abstract Wiener space, Bull. Amer. Math. Soc., 79, 478-482 (1973) · Zbl 0256.60028 |
[8] |
Piech, M. A., A fundamental solution of the parabolic equation on Hilbert Space, J. Functional Analysis, 3, 85-114 (1969) · Zbl 0169.47103 |
[9] |
Pincus, M., Gaussian processes and Hammerstein integral equations, Trans. Amer. Math. Soc., 134, 193-213 (1968) · Zbl 0175.12502 |
[10] |
R. Ranga RaoAnn. Math. Statist.33; R. Ranga RaoAnn. Math. Statist.33 · Zbl 0117.28602 |