%0 Conference Paper %1 juttner2016coupled %A Jüttner, Matthias %A Grabmaier, Sebastian %A Vögeli, Desirée %A Rucker, Wolfgang M. %A Göhner, Peter %B 17th Biennial Conference on Electromagnetic Field Computation (CEFC) 13.-16.11.2016 Florida, USA %D 2016 %I IEEE %K myown SoftwareAgent from:wmrucker17 %R 10.1109/CEFC.2016.7815942 %T Coupled Multiphysics Problems as Market Place for Competing Autonomous Software Agents %X A novel approach is presented applying capabilities of software agent based programming to numerical field computations. Distributed and autonomous calculation resources are used in analogy to a machine to machine system application for setting up and solve coupled simulations respecting the individual machine capabilities. Within the presented system the involved machines interact cooperatively and comparatively. Redundant resources do automatically and proactively add variance to the solution process by modifying their partial tasks based on negotiations between the involved resources. In that way different numerical methods, solution strategies and solver configurations are automatically evaluated as examples of the variety of coupled simulations and dynamically integrated into an overall solver sequence shown for the coupled electric field computation of a patch antenna array. A quick provision of results contemplating changes at calculation resource and vague user decisions is shown for a nonlinear and bi-directionally coupled simulation of a 3d multiphysics problem.

@inproceedings{juttner2016coupled, abstract = {A novel approach is presented applying capabilities of software agent based programming to numerical field computations. Distributed and autonomous calculation resources are used in analogy to a machine to machine system application for setting up and solve coupled simulations respecting the individual machine capabilities. Within the presented system the involved machines interact cooperatively and comparatively. Redundant resources do automatically and proactively add variance to the solution process by modifying their partial tasks based on negotiations between the involved resources. In that way different numerical methods, solution strategies and solver configurations are automatically evaluated as examples of the variety of coupled simulations and dynamically integrated into an overall solver sequence shown for the coupled electric field computation of a patch antenna array. A quick provision of results contemplating changes at calculation resource and vague user decisions is shown for a nonlinear and bi-directionally coupled simulation of a 3d multiphysics problem.}, added-at = {2020-10-14T12:41:24.000+0200}, author = {Jüttner, Matthias and Grabmaier, Sebastian and Vögeli, Desirée and Rucker, Wolfgang M. and Göhner, Peter}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2314cfc1c05f2f65db516ed4b0169a6a2/iis}, booktitle = {17th Biennial Conference on Electromagnetic Field Computation (CEFC) 13.-16.11.2016 Florida, USA}, doi = {10.1109/CEFC.2016.7815942}, interhash = {e2376710fed17ca701f20bb6c28e8183}, intrahash = {314cfc1c05f2f65db516ed4b0169a6a2}, keywords = {myown SoftwareAgent from:wmrucker17}, publisher = {IEEE}, timestamp = {2020-10-14T10:41:24.000+0200}, title = {Coupled Multiphysics Problems as Market Place for Competing Autonomous Software Agents}, year = 2016 }