Channel estimation for OFDM in fast fading channels

Description

The increasing demand for high data rate transmission over broadband
radio channels has imposed significant challenges in wireless
communications. Accurate channel estimation has a major impact on
the whole system performance. Specifically, reliable estimate of the
channel state information (CSI) is more challenging for orthogonal
frequency division multiplexing (OFDM) systems in doubly selective
fading channels than for the slower fading channels over which OFDM
has been deployed traditionally. With the help of a basis expansion
model (BEM), a novel multivariate autoregressive (AR) process is
developed to model the time evolution of the fast fading channel.
Relying on pilot symbol aided modulation (PSAM), a novel Kalman
smoothing algorithm based on a second-order dynamic model is
exploited, where the mean square error (MSE) of the channel
estimator is near to that of the optimal Wiener filter. To further
improve the performance of channel estimation, a novel
low-complexity iterative joint channel estimation and symbol
detection procedure is developed for fast fading channels with a
small number of pilots and low pilot power to achieve the bit error
rate (BER) performance close to when the CSI is known perfectly. The
new channel estimation symbol detection technique is robust to
variations of the radio channel from the design values and
applicable to multiple modulation and coding types. By use of the
extrinsic information transfer (EXIT) chart, we investigate the
convergence behavior of the new algorithm and analyze the
modulation, pilot density, and error correction code selection for
good system performance for a given power level. The algorithms
developed in this thesis improve the performance of the whole system
requiring only low ratios of pilot to data for excellent performance
in fast fading channels. / Graduate

Links & Downloads

1. http://hdl.handle.net/1828/3413
2. Ping Wan and Michael McGuire and Xiaodai Dong, Near Optimal Channel Estimation for OFDM in Fast Fading Channels, in Proc IEEE Wireless Communications and Networking Conference (WCNC), pp. 1-6, Apr. 2010
3. Ping Wan and Michael McGuire, Channel Estimation in Fast Fading Channels, in Proc IEEE ChinaCom, pp. 647-651, Aug. 2008
4. Ping Wan and Michael McGuire, An Iterative Decision Feedback Algorithm using the Cholesky Update for OFDM with Fast Fading, in Proc IEEE Pacific Rim Conference (PCRIM), pp. 522-525, Aug. 2007
5. Michael McGuire and Ping Wan, Analysis of joint channel estimation and equalization using a {K}alman filter'', in Proc IEEE Canadian Conference on Electrical and Computer Engineering (CCECE), pp. 912-915, Jan. 2006
6. Ping Wan and Michael McGuire and Xiaodai Dong, Near Optimal Channel Estimation for OFDM in Fast Fading Channels, accepted by IEEE Transactions on Vehicle Technology

Tags

fast fading channels

multivariate autoregressive process

channel estimation techniques

Additional Fields

Identifer	oai:union.ndltd.org:uvic.ca/oai:dspace.library.uvic.ca:1828/3413
Date	18 July 2011
Creators	Wan, Ping
Contributors	McGuire, Michael Liam, Dong, Xiaodai
Source Sets	University of Victoria
Language	English, English
Detected Language	English
Type	Thesis
Rights	Available to the World Wide Web