Symmetries of systems of stochastic differential equations with diffusion matrices of full rank

Kozlov, Roman

doi:10.1088/1751-8113/43/24/245201

Cited by 35 publications

(89 citation statements)

References 27 publications

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“…In the stochastic case we obtain essentially the same result, but now it is convenient to consider separately the case of deterministic symmetries and that of random ones. Again the relevant results in this direction have been obtained by Kozlov [12,13] (see also [8,16]).…”

Section: Kozlov Theorymentioning

confidence: 78%

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Symmetry of stochastic non-variational differential equations

Gaeta

2017

Physics Reports

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I will sketchily illustrate how the theory of symmetry helps in determining solutions of (deterministic) differential equations, both ODEs and PDEs, staying within the classical theory. I will then present a quick discussion of some more and less recent attempts to extend this theory to the study of stochastic differential equations, and briefly mention some perspective in this direction.Comment: Review paper (119 pages) here in bookstyle. The published version may differ from the present (preprint) one. Version 2 (November 2017): due to a mistake in a basic formula (in a previous paper of mine) the content of Section 5.5 gives wrong statement; an ERRATUM has been added at the end of the file; see also arXiv:1711.01999 for correct results on that topi

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Section: Kozlov Theorymentioning

confidence: 78%

“…But it is also known that they have the same simple symmetries, and this both in the deterministic [24] and in the random [7] case. This fact is specially interesting, as the Kozlov theory [11,12,13] relating symmetry to integrability of SDEs only makes use of simple symmetries.…”

Section: Symmetry Of Sdes and Change Of Variablesmentioning

confidence: 99%

Symmetry of stochastic non-variational differential equations

Gaeta

2017

Physics Reports

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“…We start with the case of simple deterministic symmetries. Here we have the following result, due to Kozlov [16] (see also [11]):…”

Section: Deterministic Symmetriesmentioning

confidence: 69%

W-symmetries of Ito stochastic differential equations

Gaeta

2019

Journal of Mathematical Physics

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We discuss W-symmetries of Ito stochastic differential equations, introduced in a recent paper by Gaeta and Spadaro [J. Math. Phys. 2017]. In particular, we discuss the general form of acceptable generators for continuous (Lie-point) W-symmetry, arguing they are related to the (linear) conformal group, and how W-symmetries can be used in the integration of Ito stochastic equations along Kozlov theory for standard (deterministic or random) symmetries. It turns out this requires, in general, to consider more general classes of stochastic equations than just Ito ones. *

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“…Although a direct method can be used to obtain this Lie group classification, it is no longer practical for more complicated cases such as systems of SDEs [14] due to the complexity of the determining equations. Applications of symmetries for integration of scalar stochastic differential equations can be found in [13].…”

Section: Resultsmentioning

confidence: 99%