The rigorous theoretical solution of the human exposure to the near-field of radiobase antennas requires a heavy computational effort. In this paper we propose a full-wave solution based on the implementation of a Finite-Difference Time-Domain method on parallel computers, such as the APE-Quadrics SIMD machine with 512 processors. The cases of several GSM real antennas interacting with a numerical phantom proposed by the Visible Human Project are solved, demonstrating the amenability of the approach and its accuracy for a point-evaluation of all the relevant parameters (E and H fields, as well as SAR or local currents) with a millimeter-resolution.
A Parallel FDTD Tool for the Solution of Large Dosimetric Problems: an Application to the Interaction between Humans and Radiobase Antennas
CATARINUCCI, Luca;TARRICONE, Luciano
2002-01-01
Abstract
The rigorous theoretical solution of the human exposure to the near-field of radiobase antennas requires a heavy computational effort. In this paper we propose a full-wave solution based on the implementation of a Finite-Difference Time-Domain method on parallel computers, such as the APE-Quadrics SIMD machine with 512 processors. The cases of several GSM real antennas interacting with a numerical phantom proposed by the Visible Human Project are solved, demonstrating the amenability of the approach and its accuracy for a point-evaluation of all the relevant parameters (E and H fields, as well as SAR or local currents) with a millimeter-resolution.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.