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Motivated by questions in quantum theory, we study Hilbert space valued Gaussian processes, and operator-valued kernels, i. e. , kernels taking values in B (H) (= all bounded linear operators in a fixed Hilbert space H). We begin with a systematic study of p. d. B (H) -valued kernels and the associated of H-valued Gaussian processes, together with their correlation and transfer operators. In our consideration of B (H) -valued kernels, we drop the p. d. assumption. We show that input-output models can be computed for systems of signed kernels taking the precise form of realizability via associated transfer block matrices (of operators analogous to the realization transforms in systems theory), i. e. , represented via 22 operator valued block matrices. In the context of B (H) -valued kernels we present new results on regression with H-valued Gaussian processes.
Jørgensen et al. (Sat,) studied this question.
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