Szczegóły publikacji

Opis bibliograficzny

Quasi-linear computational cost adaptive solvers for three dimensional modeling of heating of a human head induced by cell phone / Robert SCHAEFER, Marcin ŁOŚ, Marcin SIENIEK, Leszek Demkowicz, Maciej PASZYŃSKI // Journal of Computational Science ; ISSN 1877-7503. — 2015 — vol. 11, s. 163–174. — Bibliogr. s. 173, Abstr. — Publikacja dostępna online od: 2015-09-28. — ABS-AAS : Agent-Based Simulations, Adaptive Algorithms and Solvers workshop in frame of the International Conference on Computational Science (ICCS): Reykjavik, Iceland, June 1–3, 2015

Autorzy (5)

Słowa kluczowe

projection-based interpolationcomputational costh adaptive finite element methodpennes bioheat equationsparallel algorithmsparallel Crank-Nicolson scheme

Dane bibliometryczne

ID BaDAP95447
Data dodania do BaDAP2016-02-09
Tekst źródłowyURL
DOI10.1016/j.jocs.2015.09.009
Rok publikacji2015
Typ publikacjireferat w czasopiśmie
Otwarty dostęptak
Czasopismo/seriaJournal of Computational Science

Abstract

In this paper we propose a new algorithm for solving of challenging adaptive time-dependent problems with Crank–Nicolson kind of time integration in parallel. The new algorithm allows for parallel execution of computations from different time steps. Time steps are distributed between processors. The number of processors working over consecutive time steps increases with each iteration of the adaptive algorithm. The following time steps utilize the previous time steps's solutions with the same level of accuracy. Our new parallel algorithm is compared with other methods. First, we compare it with a traditional method which performs all the adaptive iterations in the first time step, next it restarts the adaptive iterations in the second time step, and continues, one time step after another. Second, we compare our algorithm with the one that performs all the adaptive iterations in the first time step, and then starts the following time steps with the optimal mesh obtained from the previous iteration. Finally, we compare our algorithm to the one that executes the projection-based interpolation of the material data in the first time step, then it solves the problem over the obtained mesh, and then starts the following time steps with the optimal mesh obtained from the previous iteration. All the mentioned algorithms are tested on the challenging computational problem, which is the solution of the Pennes equation over a human head. The heat source is obtained by approximation of the solution of the Maxwell equation computed over the model human head. From our numerical results it follows that 10 min (600 s) of exposure to the cell phone radiation may cause up to 2 °C increase of the temperature of the brain in the range close to the cell phone.

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