6,565 research outputs found
Performance and Detection of M-ary Frequency Shift Keying in Triple Layer Wireless Sensor Network
This paper proposes an innovative triple layer Wireless Sensor Network (WSN)
system, which monitors M-ary events like temperature, pressure, humidity, etc.
with the help of geographically distributed sensors. The sensors convey signals
to the fusion centre using M-ary Frequency Shift Keying (MFSK)modulation scheme
over independent Rayleigh fading channels. At the fusion centre, detection
takes place with the help of Selection Combining (SC) diversity scheme, which
assures a simple and economical receiver circuitry. With the aid of various
simulations, the performance and efficacy of the system has been analyzed by
varying modulation levels, number of local sensors and probability of correct
detection by the sensors. The study endeavors to prove that triple layer WSN
system is an economical and dependable system capable of correct detection of
M-ary events by integrating frequency diversity together with antenna
diversity.Comment: 13 pages; International Journal of Computer Networks & Communications
(IJCNC) Vol.4, No.4, July 201
Improving the Spectral Efficiency of Nonlinear Satellite Systems through Time-Frequency Packing and Advanced Processing
We consider realistic satellite communications systems for broadband and
broadcasting applications, based on frequency-division-multiplexed linear
modulations, where spectral efficiency is one of the main figures of merit. For
these systems, we investigate their ultimate performance limits by using a
framework to compute the spectral efficiency when suboptimal receivers are
adopted and evaluating the performance improvements that can be obtained
through the adoption of the time-frequency packing technique. Our analysis
reveals that introducing controlled interference can significantly increase the
efficiency of these systems. Moreover, if a receiver which is able to account
for the interference and the nonlinear impairments is adopted, rather than a
classical predistorter at the transmitter coupled with a simpler receiver, the
benefits in terms of spectral efficiency can be even larger. Finally, we
consider practical coded schemes and show the potential advantages of the
optimized signaling formats when combined with iterative detection/decoding.Comment: 8 pages, 8 figure
Time-Frequency Packing for High Capacity Coherent Optical Links
We consider realistic long-haul optical links, with linear and nonlinear
impairments, and investigate the application of time-frequency packing with
low-order constellations as a possible solution to increase the spectral
efficiency. A detailed comparison with available techniques from the literature
will be also performed. We will see that this technique represents a feasible
solution to overcome the relevant theoretical and technological issues related
to this spectral efficiency increase and could be more effective than the
simple adoption of high-order modulation formats.Comment: 10 pages, 9 figures. arXiv admin note: text overlap with
arXiv:1406.5685 by other author
LDPC Code Design for Noncoherent Physical Layer Network Coding
This work considers optimizing LDPC codes in the physical-layer network coded
two-way relay channel using noncoherent FSK modulation. The error-rate
performance of channel decoding at the relay node during the multiple-access
phase was improved through EXIT-based optimization of Tanner graph variable
node degree distributions. Codes drawn from the DVB-S2 and WiMAX standards were
used as a basis for design and performance comparison. The computational
complexity characteristics of the standard codes were preserved in the
optimized codes by maintaining the extended irregular repeat-accumulate (eIRA).
The relay receiver performance was optimized considering two modulation orders
M = {4, 8} using iterative decoding in which the decoder and demodulator refine
channel estimates by exchanging information. The code optimization procedure
yielded unique optimized codes for each case of modulation order and available
channel state information. Performance of the standard and optimized codes were
measured using Monte Carlo simulation in the flat Rayleigh fading channel, and
error rate improvements up to 1.2 dB are demonstrated depending on system
parameters.Comment: Six pages, submitted to 2015 IEEE International Conference on
Communication
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