Effects of intentional RF interference on Optical Wireless Communication Systems
Résumé
Optical Wireless Communication (OWC) has been
always regarded as a technology guaranteeng a strong immunity
to Radio Frequency electromagnetic interference. However, as
a matter of fact, no accurate studies have been realized in
low cost practical implementations of this technology. For the
establishment of the OWC in real scenarios it is paramount
to have an electromagnetic characterization of the environment,
considering the effects of Radio Frequency interference on
system performance. A proper analysis of interference prevents
Electromagnetic Compatibility issues between a Visible Light
Communication system (VLC) and the other components of the
architecture and, overall, underline critical frequencies that could
be potentially exploited by electromagnetic attacks. Based on
these premises, an extended analysis of the effects caused by
electromagnetic radiations on a typical VLC Tx-Rx pair has been
realized in this work. In particular, two optical prototypes have
been developed and tested in a controlled environment. Plane
waves, generated at different power levels and in a wide frequency
range, represent the intentional interference sources. The effects
on data communication, considering Pulse Position Modulated
(PPM) as useful optical signal, have been measured and shown.
Effects on time domain and Bit Error Rate (BER) have been
reported. In order to reduce the effects of the disturbing EM
fields on the VLC system, we have integrated an electromagnetic
shield and we have evaluated its impact through extensive
measurements.
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