1 research outputs found
Analysis, characterization and modeling of interference sources on wireless communication systems in complex indoor scenarios
This research work presents a novel methodology of assessing
wireless interferences on Wireless Sensor Networks (WSN) by the aid
of an in-house developed 3D Ray Launching method, which is a novel
deterministic approach for radio propagation prediction in complex
environments. Firstly, the 3D Ray Launching simulation procedure has
been validated by means of comparing the simulation results with
radio propagation measurements within different complex scenarios.
Afterwards, a novel point of view regarding the traditional use of radio
propagation models is presented: its use for assessing wireless
interferences between different deployed wireless networks and WSNs,
instead of only predicting the radio propagation of the transceivers
belonging to a wireless communication system. The obtained results
show that the assessment of potential wireless interferences will be a
major issue in order to deploy optimally WSNs, even more taking into
account that in a future framed by the Smart City concept and the so
called Internet of Things (IoT) along the appearance of 5G systems, the
quantity of wireless transceivers is expected to be huge.
Once the methodology for the assessment of the interferences
between wireless communication systems has been performed, a
further step has been taken in order to analyze the interferences created
by electrical devices which do not belong to wireless communication
systems. For that purpose, a novel hybrid simulation method based on
the 3D Ray Launching algorithm and Equivalent Sources has been
developed in order to obtain computational models for the estimation
of radiated emissions of potential wireless interference sources.
Specifically, a common domestic microwave oven has been chosen as
the interference source under analysis