@inproceedings{KraussharConstalesGuerlebecketal.,
author = {Kraußhar, Rolf S{\"o}ren and Constales, Denis and G{\"u}rlebeck, Klaus and Spr{\"o}ßig, Wolfgang},
title = {APPLICATIONS OF QUATERNIONIC ANALYSIS IN ENGINEERING},
editor = {G{\"u}rlebeck, Klaus and K{\"o}nke, Carsten},
organization = {Bauhaus-Universit{\"a}t Weimar},
doi = {10.25643/bauhaus-universitaet.2912},
url = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20170327-29128},
pages = {8},
abstract = {The quaternionic operator calculus can be applied very elegantly to solve many important boundary value problems arising in fluid dynamics and electrodynamics in an analytic way. In order to set up fully explicit solutions. In order to apply the quaternionic operator calculus to solve these types of boundary value problems fully explicitly, one has to evaluate two types of integral operators: the Teodorescu operator and the quaternionic Bergman projector. While the integral kernel of the Teodorescu transform is universal for all domains, the kernel function of the Bergman projector, called the Bergman kernel, depends on the geometry of the domain. Recently the theory of quaternionic holomorphic multiperiodic functions and automorphic forms provided new impulses to set up explicit representation formulas for large classes of hyperbolic polyhedron type domains. These include block shaped domains, wedge shaped domains (with or without additional rectangular restrictions) and circular symmetric finite and infinite cylinders as particular subcases. In this talk we want to give an overview over the recent developments in this direction.},
subject = {Architektur },
language = {en}
}
@inproceedings{BockGuerlebeck,
author = {Bock, Sebastian and G{\"u}rlebeck, Klaus},
title = {A Coupled Ritz-Galerkin Approach Using Holomorphic and Anti-holomorphic Functions},
editor = {G{\"u}rlebeck, Klaus and K{\"o}nke, Carsten},
organization = {Bauhaus-Universit{\"a}t Weimar},
doi = {10.25643/bauhaus-universitaet.2928},
url = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20170327-29281},
pages = {14},
abstract = {The contribution focuses on the development of a basic computational scheme that provides a suitable calculation environment for the coupling of analytical near-field solutions with numerical standard procedures in the far-field of the singularity. The proposed calculation scheme uses classical methods of complex function theory, which can be generalized to 3-dimensional problems by using the framework of hypercomplex analysis. The adapted approach is mainly based on the factorization of the Laplace operator EMBED Equation.3 by the Cauchy-Riemann operator EMBED Equation.3 , where exact solutions of the respective differential equation are constructed by using an orthonormal basis of holomorphic and anti-holomorphic functions.},
subject = {Architektur },
language = {en}
}