189 research outputs found
Wlan Preamble Detection Methods in a Multi-Antenna, Multi-Standards Software Defined Radio Architecture
International audienceThis paper presents a comparison of different detection methods which could be used to sense a frequency band in order to select a particular channel and a particular communication standard in a wideband melted signal. Here we focus on a generic WLAN receiver based on SDR principles, capable of sampling several overlapping channels to demodulate simultaneously concurrent users possibly using different waveforms
A proposal of a technique for correlating defect dimensions to vibration amplitude in bearing monitoring
The capability of early stage detection of a defect is gaining more and more importance because it can help the maintenance process, the cost reduction and the reliability of the systems.
The increment of vibration amplitude is a well-known method for evaluating the damage of a component, but it is sometimes difficult to understand the exact level of damage. In other words, the amplitude of vibration cannot be directly connected to the dimension of the defect.
In the present paper, based on a non-Hertzian contact algorithm, the spectrum of the pressure distribution in the contact surface between the race and the rolling element is evaluated. Such spectrum is then compared with the acquired spectrum of a vibration response of a defected bearing. The bearing vibration pattern was previously analyzed with monitoring techniques to extract all the damage information.
The correlation between the spectrum of the pressure distribution in the defected contact surface and the analyzed spectrum of the damaged bearing highlights a strict relationship. By using that analysis, a precise correlation between defect aspect and dimension and vibration level can be addressed to estimate the level of damaging
Frequency shift filtering for cyclostationary signals.
The frequency-shift (FRESH) filter is a structure which exploits the spectral correlation of cyclostationary
signals for removing interference and noise from a wanted signal. As most digital
communication signals are cyclostationary, FRESH filtering offers certain advantages for interference
rejection in a communications receiver.
This thesis explores the operation and application of FRESH filters in practical interference scenarios.
The theoretical background to cyclostationarity is clarified with graphical interpretations
of what cyclostationarity is, and how a FRESH filter exploits it to remove interference. The effects
of implementation in a sampled system are investigated, in filters which use baud rate related cyclostationarity,
leading to efficiency improvements. The effects of varying the wanted signal pulse
shape to enhance the cyclostationarity available to the FRESH filter are also investigated.
A consistent approach to the interpretation of the FRESH filter's operation is used throughout,
while evaluating the performance in a wide range of realistic channel conditions.
VLF radio communication is proposed as one area where interference conditions are particularly
suitable for the use of FRESH filtering. In cases of severe adjacent channel interference it is found
that a FRESH filter can almost completely remove the interferer. The effects of its use with an
impulse rejection technique are also investigated.
Finally, blind adaptation of FRESH filters through exploitation of carrier related cyclostationarity
is investigated. It is found that one existing method loses the advantage of FRESH filtering over
time invariant linear filtering. An improvement is proposed to the latter which restores its performance
to that of a trained FRESH filter, and also reveals that carrier related cyclostationarity can
be exploited, in some cases, by a simpler method.
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