DKED modelling of Human body blockage of 5G system link at 32 GHz
- Resource Type
- Authors
- Alyaseh Askir; Amer Daeri; Ahmad Alabish; Issa Ali
- Source
- 2021 IEEE 1st International Maghreb Meeting of the Conference on Sciences and Techniques of Automatic Control and Computer Engineering MI-STA.
- Subject
- Diffraction
SIMPLE (military communications protocol)
Scattering
business.industry
Computer science
Attenuation
Acoustics
Wireless
Link (knot theory)
business
5G
- Language
This paper is the continuation of a research carried out by Alabish et.al, which depicts the scattering objects effects on a blocked indoor wireless 5G link by a human body using a simple approach. Some measurement were made on the scattering effects due to having an object close to the link in this case it is a human body. In this paper, more measurements were conducted at 32 GHz. The double knife-edge diffraction (DKED) model was used in order to foresee the attenuation due to human body. To test the prediction precision of the model, simulation was then compared with measurements. The obtained results indicate that the assumed simple models for the indoor links performed well.