A thermal model of the human body exposed to an electromagnetic field

## Abstract A numerical model of a human body with an intramedullary nail in the femur was built to evaluate the effects of the implant on the current density distribution in extremely low frequency electric and magnetic fields. The intramedullary nail was chosen because it is one of the longest hi

Alternative mathematical models of the vertical apparent mass of the seated human body are developed. The optimum parameters of four models (two single-degree-of-freedom models and two two-degree-of-freedom models) are derived from the mean measured apparent masses of 60 subjects (24 men, 24 women,

Localized and averaged specific absorption rates (SARs) were obtained in a full-size muscle-equivalent human model exposed to near-field 29.9 MHz irradiation at an outdoor facility. The model was positioned erect on a metallic groundplane I .22 m (4 ft) from the base of a 10.8-m (35 ft) whip antenna

## Abstract A new approach for increasing the radiation efficiency of cellular telephones, which controls the nearby magnetic field incident to a human phantom surface, has been proposed. To control the near field, a small magnetic plate is used as an electromagnetic perturbator, and it is placed n

## Abstract In this work, a combination of the physical optics in the time domain (TDPO) method and a time‐domain version of the equivalent currents of the physical theory of diffraction (TDPTD) with the finite‐difference time‐domain method (FDTD) is presented in order to compute scattered fields b