Abstract

Overview

The study explores the theoretical simulation of energy flux density of electromagnetic fields generated by telecommunication antennas in residential areas. This simulation utilizes physical characteristics of waves generating electromagnetic radiation.

Findings

• Visual representations of electromagnetic radiation dispersal were generated through AutoCad simulations.
• Simulated versus measured energy flux density overlapped by 30%.
• Radiation values within a close proximity (under 30 m) ranged from 10 to 10,000 µW/cm², and at distances beyond 30 m, values fluctuated from 10 to 0.001 µW/cm².

Conclusion

The simulations estimated electromagnetic radiation by mobile antennas and highlighted challenges in precise measurements due to natural and man-made obstacles. Findings emphasize the need for stringent adherence to radiation safety standards and the potential health risks of exposure, illustrating that even if standards are met or measurements are below established limits, verification through additional testing is advised due to environmental variables affecting the dispersal of electromagnetic fields.