Possibility of compromising the security of free space optics communications caused by scattering on fog particles

Possibility of compromising the security of free space optics communications caused by scattering on fog particles

WoS Article

The paper presents experimental verification of coexistence and entry into a free space optical link channel. A numerical model, which describes the properties of the LOS (Line of Sight) channel and NLOS (Non-Line of Sight) channel, was formulated and experimentally verified. Experimental work includes an outdoor fog experiment which confirms theoretical predictions. It has been shown that under certain optimal conditions (sufficient transmitting power, dense fog, optimal eavesdropper's receiver distance and optimal angle between the eavesdropper's receiver and the axis of the wireless optical link) unauthorized reception is possible.

The paper presents experimental verification of coexistence and entry into a free space optical link channel. A numerical model, which describes the properties of the LOS (Line of Sight) channel and NLOS (Non-Line of Sight) channel, was formulated and experimentally verified. Experimental work includes an outdoor fog experiment which confirms theoretical predictions. It has been shown that under certain optimal conditions (sufficient transmitting power, dense fog, optimal eavesdropper's receiver distance and optimal angle between the eavesdropper's receiver and the axis of the wireless optical link) unauthorized reception is possible.

free space optics, line of sight, non-line of sight, scattering, security

free space optics, line of sight, non-line of sight, scattering, security

BARCÍK, P.; WILFERT, O.

2023

14.10.2022

Optica Publishing Group

Washington

1094-4087

OPTICS EXPRESS

30

22

United States of America

40196

40207

12

https://opg.optica.org/oe/fulltext.cfm?uri=oe-30-22-40196&id=509951

http://hdl.handle.net/11012/208666

oe-30-22-40196