An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments

An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments

Long-Term Evolution (LTE) systems will employ single carrier frequency division multiple access (SC-FDMA) for the uplink. Similar to the Orthogonal frequency-division multiple access (OFDMA) technology, SC-FDMA is sensitive to frequency offsets leading to intercarrier interference (ICI). In this pap...

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Main Authors: Bahattin Karakaya, Hüseyin Arslan, Hakan A. Çırpan
Format: Article
Language:English
Published: SpringerOpen 2009-01-01
Series:EURASIP Journal on Wireless Communications and Networking
Online Access:http://dx.doi.org/10.1155/2009/893751
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spelling doaj-e3f3cb2aec8b4798ab4c121a7bfe77d82020-11-24T20:51:29ZengSpringerOpenEURASIP Journal on Wireless Communications and Networking1687-14721687-14992009-01-01200910.1155/2009/893751An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread EnvironmentsBahattin KarakayaHüseyin ArslanHakan A. ÇırpanLong-Term Evolution (LTE) systems will employ single carrier frequency division multiple access (SC-FDMA) for the uplink. Similar to the Orthogonal frequency-division multiple access (OFDMA) technology, SC-FDMA is sensitive to frequency offsets leading to intercarrier interference (ICI). In this paper, we propose a Kalman filter-based approach in order to mitigate ICI under high Doppler spread scenarios by tracking the variation of channel taps jointly in time domain for LTE uplink systems. Upon acquiring the estimates of channel taps from the Kalman tracker, we employ an interpolation algorithm based on polynomial fitting whose order is changed adaptively. The proposed method is evaluated under four different scenarios with different settings in order to reflect the impact of various critical parameters on the performance such as propagation environment, speed, and size of resource block (RB) assignments. Results are given along with discussions. http://dx.doi.org/10.1155/2009/893751
collection DOAJ
language English
format Article
sources DOAJ
author Bahattin Karakaya
Hüseyin Arslan
Hakan A. Çırpan
spellingShingle Bahattin Karakaya
Hüseyin Arslan
Hakan A. Çırpan
An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments
EURASIP Journal on Wireless Communications and Networking
author_facet Bahattin Karakaya
Hüseyin Arslan
Hakan A. Çırpan
author_sort Bahattin Karakaya
title An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments
title_short An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments
title_full An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments
title_fullStr An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments
title_full_unstemmed An Adaptive Channel Interpolator Based on Kalman Filter for LTE Uplink in High Doppler Spread Environments
title_sort adaptive channel interpolator based on kalman filter for lte uplink in high doppler spread environments
publisher SpringerOpen
series EURASIP Journal on Wireless Communications and Networking
issn 1687-1472
1687-1499
publishDate 2009-01-01
description Long-Term Evolution (LTE) systems will employ single carrier frequency division multiple access (SC-FDMA) for the uplink. Similar to the Orthogonal frequency-division multiple access (OFDMA) technology, SC-FDMA is sensitive to frequency offsets leading to intercarrier interference (ICI). In this paper, we propose a Kalman filter-based approach in order to mitigate ICI under high Doppler spread scenarios by tracking the variation of channel taps jointly in time domain for LTE uplink systems. Upon acquiring the estimates of channel taps from the Kalman tracker, we employ an interpolation algorithm based on polynomial fitting whose order is changed adaptively. The proposed method is evaluated under four different scenarios with different settings in order to reflect the impact of various critical parameters on the performance such as propagation environment, speed, and size of resource block (RB) assignments. Results are given along with discussions.
url http://dx.doi.org/10.1155/2009/893751
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