Guidancepoint offers best Antenna project in Pune. We
have well experienced faculty to guide you to complete your project
successfully. We focuses more on individual development and growth of your
knowledge rather than let you just work for us. We give our fellow students an
opportunity to play a variety of roles having high responsibilities. Our expert
team encourages team spirit and builds confidence in you.
Antenna for a wireless sensor
network for trains is designed and built. The network will monitor temperature
and vibrations of the wheel bearings on the train wagons. Doing this will allow
for an earlier detection of damaged wheels, which will ease planning of
maintenance and reduce wear on the rails considerable.
The constructed antenna is a
small dual-layer patch antenna. Dual layer means that it is constructed out of
two sheets known as substrates of insulating material with different characteristics.
The lower one of these substrates is made in such a way that integration with a
circuit board is possible. Such integration would reduce the production cost
The antenna surface could
be part of the train. It uses the surrounding metal as a ground plane in order
to reduce its size. The result is a small patch antenna with good radiation
qualities in metallic surrounded.
The requirement of the system
is that it is to be installed without any cables attached to the sensor nodes.
This calls for wireless communication, and that for that antennas are needed.A
train is a difficult environment to transmit electromagnetic (EM) waves in.
To help enable the next
generation of wireless technology, paradigm shifts in the antenna designs are needed, and
significant advances in the development of physics-based propagation models for
channel characterization are required. In the antenna design area, high
performance and low cost antenna array designs with full.
A wide variety of space
diversity techniques have been proposed and the development of a low cost
adaptive antenna array is crucial in the realization and implementation of
these systems. Results of a comparative study between adaptive antennas and
various diversity techniques are presented. Regarding the propagation models it
is fair to say that there have been a great deal of ongoing research in this
area. It is also fair to conclude that much of the available information need
improvements particularly in two areas. This includes the desire to develop
physics-based deterministic models that take into account unique propagation
environments. Join Guidancepoint for Antenna project in Pune.