Hyperbolic Harmonic Functions and Hyperbolic Brownian Motion

Eriksson, Sirkka-Liisa; Kaarakka, Terhi

doi:10.1007/s00006-020-01099-z

Cited by 4 publications

(4 citation statements)

References 19 publications

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“…Another group of works [3][4][5] has been devoted to studying stochastic calculus in general Grassmann algebras. Additionally, it is important to mention, that a connection between α-hyperbolic harmonics and hyperbolic Brownian motion has been presented in [12]. Nonetheless, a general Clifford setting has not been addressed so far.…”

Section: Introductionmentioning

confidence: 99%

Brownian Motion, Martingales and Itô Formula in Clifford Analysis

Bernstein

Legatiuk

2022

Adv. Appl. Clifford Algebras

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Clifford analysis has been the field of active research for several decades resulting in various methods to solve problems in pure and applied mathematics. However, the area of stochastic analysis has not been addressed in its full generality in the Clifford setting, since only a few contributions have been presented so far. Considering that the tools of stochastic analysis play an important role in the study of objects, such as positive definite functions, reproducing kernels and partial differential equations, it is important to develop tools for the study of these objects in the context of Clifford analysis. Therefore, in this work-in-progress paper, we present further steps towards stochastic Clifford analysis by studying random variables, martingales, Brownian motion, and Itô formula in the Clifford setting, as well as their applications in Clifford analysis.

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Section: Introductionmentioning

confidence: 99%

Brownian Motion, Martingales and Itô Formula in Clifford Analysis

Bernstein

Legatiuk

2022

Adv. Appl. Clifford Algebras

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“…Another group of works [3,4,5] has been devoted to studying stochastic calculus in general Grassmann algebras. Additionally, it is important to mention, that a connection between α-hyperbolic harmonics and hyperbolic Brownian motion has been presented in [12]. Nonetheless, a general Clifford setting has not been addressed so far.…”

Section: Introductionmentioning

confidence: 99%

Brownian motion, martingales and Itô formula in Clifford analysis

Bernstein¹,

Legatiuk²

2022

Preprint

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Clifford analysis has been the field of active research for several decades resulting in various methods to solve problems in pure and applied mathematics. However, the area of stochastic analysis has not been addressed in its full generality in the Clifford setting, since only a few contributions have been presented so far. Considering that the tools of stochastic analysis play an important role in the study of objects, such as positive definite functions, reproducing kernels and partial differential equations, it is important to develop tools for the study of these objects in the context of Clifford analysis. Therefore, in this workin-progress paper, we present further steps towards stochastic Clifford analysis by studying random variables, martingales, Brownian motion, and Itô formula in the Clifford setting, as well as their applications in Clifford analysis.

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“…Hyperbolic harmonic functions and hyperbolic Brownian motion were studied by Erikson and Kaarakka. 6 Alpay and collaborators studied in previous works [7][8][9] different concepts of infinite-dimensional spaces, Grassmann algebras, and quaternionic functionals.…”

Section: Introductionmentioning

confidence: 99%

“…Recently, in Clifford analysis, different approaches to Brownian motion and stochastic processes have been made. Hyperbolic harmonic functions and hyperbolic Brownian motion were studied by Erikson and Kaarakka 6 . Alpay and collaborators studied in previous works 7–9 different concepts of infinite‐dimensional spaces, Grassmann algebras, and quaternionic functionals.…”

Section: Introductionmentioning

confidence: 99%

Toward infinite‐dimensional Clifford analysis

Bernstein

2022

Math Methods in App Sciences

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Clifford analysis is a higher dimensional function theory and a refinement of harmonic analysis. We will extend Clifford analysis to the infinite‐dimensional setting. To do that, we have to introduce infinite‐dimensional Clifford algebras and the infinite‐dimensional Dirac operator. The paper's main result is the Wiener chaos decomposition in Clifford analysis. We apply the decomposition to white noise and Brownian motion.

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Hyperbolic Harmonic Functions and Hyperbolic Brownian Motion

Cited by 4 publications

References 19 publications

Brownian Motion, Martingales and Itô Formula in Clifford Analysis

Brownian Motion, Martingales and Itô Formula in Clifford Analysis

Brownian motion, martingales and Itô formula in Clifford analysis

Toward infinite‐dimensional Clifford analysis

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