Existence of weak solutions for stochastic differential equations and martingale solutions for stochastic semilinear equations

Gawarecki, Leszek; Mandrekar, V.; Richard, Phillip

doi:10.1515/rose.1999.7.3.215

Cited by 8 publications

(13 citation statements)

References 8 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…also to [15,17,23,24,26,27,[30][31][32][33] and references therein for other interesting existence results on mild solutions of infinite-dimensional SDEs with Gaussian or Poisson noise. In particular we mention results by Knoche [31][32][33] which concern SDEs of the type (1) on Sobolev spaces, where properties of the differential dependence of the resolvent on the initial data are discussed.…”

Section: A : D(a) ⊂ H → Hmentioning

confidence: 99%

Existence of mild solutions for stochastic differential equations and semilinear equations with non-Gaussian Lévy noise

Albeverio

Mandrekar

Rüdiger

2009

Stochastic Processes and their Applications

Self Cite

View full text Add to dashboard Cite

Existence and uniqueness of the mild solutions for stochastic differential equations for Hilbert valued stochastic processes are discussed, with the multiplicative noise term given by an integral with respect to a general compensated Poisson random measure. Parts of the results allow for coefficients which can depend on the entire past path of the solution process. In the Markov case Yosida approximations are also discussed, as well as continuous dependence on initial data, and coefficients. The case of coefficients that besides the dependence on the solution process have also an additional random dependence is also included in our treatment. All results are proven for processes with values in separable Hilbert spaces. Differentiable dependence on the initial condition is proven by adapting a method of S. Cerrai.

show abstract

Section: A : D(a) ⊂ H → Hmentioning

confidence: 99%

Existence of mild solutions for stochastic differential equations and semilinear equations with non-Gaussian Lévy noise

Albeverio

Mandrekar

Rüdiger

2009

Stochastic Processes and their Applications

Self Cite

View full text Add to dashboard Cite

show abstract

“…Lipschitz conditions for the existence of (pathwise) unique solutions to SDEs of the type (4.1) can be found in [9,22]. A version of Theorem 3 for SDEs driven by Wiener noise is given in [11]. We are not aware of any result in the direction of Theorem 3 which allows Lévy noise.…”

Section: )mentioning

confidence: 99%

Limit Theorems for Cylindrical Martingale Problems Associated with Lévy Generators

Criens

2019

J Theor Probab

View full text Add to dashboard Cite

We prove limit theorems for cylindrical martingale problems associated to Lévy generators. Furthermore, we give sufficient and necessary conditions for the Feller property of well-posed problems with continuous coefficients. We discuss two applications. First, we derive continuity and linear growth conditions for the existence of weak solutions to infinite-dimensional stochastic differential equations driven by Lévy noise. Second, we derive continuity, local boundedness and linear growth conditions for limit theorems and the Feller property of weak solutions to stochastic partial differential equations driven by Wiener noise.

show abstract

“…Now we will use the compact embedding argument, as in [2]. We point out the critical calculations in the second part of the proof adapted from [3].…”

Section: Theorem 22 There Exists a Weak Solution To Equationmentioning

confidence: 99%

“…We use the ideas in [2] and instead of the embeddings being Hilbert-Schmidt operators as in [3], we only assume their compactness. It should be noted that the weak solution X that we construct is in C([0, T ], H) with X ∈ L 2 ([0, T ] × Ω, V ), and it satisfies E sup…”

Section: Introductionmentioning

confidence: 99%

On the existence of weak variational solutions to stochastic differential equations

Gawarecki¹,

Mandrekar²

2010

COSA

View full text Add to dashboard Cite

We study the existence of weak variational solutions in a Gelfand triplet of real separable Hilbert spaces, under continuity, growth, and coercivity conditions on the coefficients of the stochastic differential equation. The laws of finite dimensional approximations are proved to weakly converge to the limit which is identified as a weak solution. The solution is an Hvalued continuous process in L 2 (Ω, C([0, T ], H)) ∩ L 2 ([0, T ] × Ω, V). Under the assumption of monotonicity the solution is strong and unique.

show abstract

Existence of weak solutions for stochastic differential equations and martingale solutions for stochastic semilinear equations

Cited by 8 publications

References 8 publications

Existence of mild solutions for stochastic differential equations and semilinear equations with non-Gaussian Lévy noise

Existence of mild solutions for stochastic differential equations and semilinear equations with non-Gaussian Lévy noise

Limit Theorems for Cylindrical Martingale Problems Associated with Lévy Generators

On the existence of weak variational solutions to stochastic differential equations

Contact Info

Product

Resources

About