The primary objective of using a guard interval in
form of Cyclic Prefix (CP) for WiMAX has always been to
mitigate the adverse effect of Inter Symbol Interference (ISI)
due to multipath fading. However, recent researches on
Adaptive Cyclic Prefix (ACP) have been suggested instead of
the existing fixed CP duration for changing Channel SNR.
These strategies provide a better Quality of Service (QoS)
and also enhances the performance of OFDM based WiMAX
systems. Based on these strategies, an “error on the fly”
correction based ACP has been proposed in this paper. The
proposed method, accompanied by exhaustive simulation
results, show its effectiveness by the improved Spectral
Efficiency (SE) and better Signal strength for a typical WiMAX
scenario under fast fading multipath channel conditions.
%0 Journal Article
%1 budhadityabhattacharyya2013novel
%A Budhaditya Bhattacharyya, Iti Saha Misra
%A Sanyal, Salil Kumar
%D 2013
%E Hope, Dr.Martin
%J Int. J. on Recent Trends in Engineering and Technology,
%K Adaptive Cyclic Data Efficiency Prefix Rate Spectral
%N 2
%P 6
%T Novel Cyclic Prefix Selection to Improve Spectral
Efficiency and Signal Strength in OFDM Systems
%U /brokenurl#-Data Rate; Spectral Efficiency; Adaptive Cyclic Prefix
%V 8
%X The primary objective of using a guard interval in
form of Cyclic Prefix (CP) for WiMAX has always been to
mitigate the adverse effect of Inter Symbol Interference (ISI)
due to multipath fading. However, recent researches on
Adaptive Cyclic Prefix (ACP) have been suggested instead of
the existing fixed CP duration for changing Channel SNR.
These strategies provide a better Quality of Service (QoS)
and also enhances the performance of OFDM based WiMAX
systems. Based on these strategies, an “error on the fly”
correction based ACP has been proposed in this paper. The
proposed method, accompanied by exhaustive simulation
results, show its effectiveness by the improved Spectral
Efficiency (SE) and better Signal strength for a typical WiMAX
scenario under fast fading multipath channel conditions.
@article{budhadityabhattacharyya2013novel,
abstract = {The primary objective of using a guard interval in
form of Cyclic Prefix (CP) for WiMAX has always been to
mitigate the adverse effect of Inter Symbol Interference (ISI)
due to multipath fading. However, recent researches on
Adaptive Cyclic Prefix (ACP) have been suggested instead of
the existing fixed CP duration for changing Channel SNR.
These strategies provide a better Quality of Service (QoS)
and also enhances the performance of OFDM based WiMAX
systems. Based on these strategies, an “error on the fly”
correction based ACP has been proposed in this paper. The
proposed method, accompanied by exhaustive simulation
results, show its effectiveness by the improved Spectral
Efficiency (SE) and better Signal strength for a typical WiMAX
scenario under fast fading multipath channel conditions.},
added-at = {2014-02-03T07:52:12.000+0100},
author = {Budhaditya Bhattacharyya, Iti Saha Misra and Sanyal, Salil Kumar},
biburl = {https://www.bibsonomy.org/bibtex/26d4a8e72b25710b7dbed54782460cc8d/idescitation},
editor = {Hope, Dr.Martin},
interhash = {33e218a3344641f5b7d74fa6664f271f},
intrahash = {6d4a8e72b25710b7dbed54782460cc8d},
journal = {Int. J. on Recent Trends in Engineering and Technology,},
keywords = {Adaptive Cyclic Data Efficiency Prefix Rate Spectral},
month = {January},
number = 2,
pages = 6,
timestamp = {2014-02-03T07:52:12.000+0100},
title = {Novel Cyclic Prefix Selection to Improve Spectral
Efficiency and Signal Strength in OFDM Systems},
url = {/brokenurl#-Data Rate; Spectral Efficiency; Adaptive Cyclic Prefix},
volume = 8,
year = 2013
}