Login / Signup

Towards Outdoor Electromagnetic Field Exposure Mapping Generation Using Conditional GANs.

Mohammed MallikAngesom Ataklity TesfayBenjamin AllaertRedha KassiEsteban Egea-LopezJose-Maria Molina-Garcia-PardoJoe WiartDavy P GaillotLaurent Clavier
Published in: Sensors (Basel, Switzerland) (2022)
With the ongoing fifth-generation cellular network (5G) deployment, electromagnetic field exposure has become a critical concern. However, measurements are scarce, and accurate electromagnetic field reconstruction in a geographic region remains challenging. This work proposes a conditional generative adversarial network to address this issue. The main objective is to reconstruct the electromagnetic field exposure map accurately according to the environment's topology from a few sensors located in an outdoor urban environment. The model is trained to learn and estimate the propagation characteristics of the electromagnetic field according to the topology of a given environment. In addition, the conditional generative adversarial network-based electromagnetic field mapping is compared with simple kriging. Results show that the proposed method produces accurate estimates and is a promising solution for exposure map reconstruction.
Keyphrases
  • high frequency
  • high resolution
  • high density
  • body composition
  • mass spectrometry
  • network analysis