Abstract:
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The industry is constantly growing and thus needs new applications for the future. The
problems for these technologies are the main worries for the developers because in an
industrial environment there are interference ...[+]
The industry is constantly growing and thus needs new applications for the future. The
problems for these technologies are the main worries for the developers because in an
industrial environment there are interference factors, which make use of other kind of
technologies and antennas.
Generally, the technologies currently used in an industry are not optimized for industrial
environments although some standard organizations are working to develop future standards
(ETSI). Special structures, which are used in industries, include different materials; these
materials produce changes in the behavior of transmitters and receivers. Absorbent materials
can reduce this problem and reduce propagation.
The main goal of this project is to analyze different antennas using the software Savant, to
choose the best one in an industrial environment. The analysis of antennas will simulate the
usage of different antennas in an industrial environment in the frequency range of (300 MHz-
3 GHz). Further, different coats will be used to find out which one is the better one
concerning the coat. By using the software Savant we will design the coating to analyze it.
We will use two different kinds of coat Metal (PEC) and Single layer dielectric.Once we
found the result we will look in the range of frequency 2.4 GHz and we will select the best
one for calculating the losses of the difference between total field of Metal PEC and Singer
layer dielectric.
The study showed that the best antennas for industrial environments are the dipole and
monopole ones, because both of them have low losses in this hostile environment. The
sections provided during the study intend to guide the research into the important aspects that
revolve around the experiment.
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