LTE and WiMAX: performance and complexity comparison for possible channel estimation techniques

SUMMARYThe similarities between the physical layer of LTE and WiMAX systems trigger the design of a unified hardware platform. As a consequence, there exists a great need to design common blocks that can be adapted to support both of them. In this paper, the choice of the channel estimator is studie...

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Bibliographic Details
Published in:International journal of communication systems 2013-06, Vol.26 (6), p.792-805
Main Authors: Hafez, H., Fahmy, Y.A., Khairy, M.M.
Format: Article
Language:English
Subjects:
channel estimation
Channels
Complexity
computational complexity
Delay
Design engineering
Doppler effect
Estimators
Interoperability
LTE
WiMAX
Wireless communication
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Summary:SUMMARYThe similarities between the physical layer of LTE and WiMAX systems trigger the design of a unified hardware platform. As a consequence, there exists a great need to design common blocks that can be adapted to support both of them. In this paper, the choice of the channel estimator is studied where the performance and complexity trade‐off is investigated to seek a unified channel estimation design that can suit both systems under different channel conditions. The performance of different channel estimation techniques when applied to LTE and WiMAX systems is assessed and compared. Two channel profiles with different delay spreads are considered for urban macrocell and bad urban macrocell channels. Three different Doppler frequencies are assumed to illustrate the effect of users’ mobility. The estimators’ computational complexity is also thoroughly studied.Copyright © 2011 John Wiley & Sons, Ltd. The similarities between the physical layer of LTE and WiMAX systems trigger the design of a unified hardware platform. In this paper, the choice of the channel estimator is studied where the performance and complexity trade‐off is investigated to seek a unified channel estimation design that can suit both systems. The performance of different channel estimation techniques when applied to LTE and WiMAX systems, with different channel delay profile and Doppler frequencies, is assessed and compared.
ISSN:1074-5351
1099-1131
DOI:10.1002/dac.1370