Autocorrelation method for estimation of Doppler parameters in fast-varying underwater acoustic channels
Autocorrelation method for estimation of Doppler parameters in fast-varying underwater acoustic channels
In this paper, we propose and investigate a low-complexity technique for estimating the Doppler parameters in fast-varying underwater acoustic channels. This technique can be used in communication systems with periodically transmitted spread spectrum pilot signals. The known autocorrelation techniques for Doppler estimation suffer from low accuracy in channels fast-varying over the estimation interval. The proposed technique avoids such a problem by introducing a multichannel estimator. The proposed technique not only measures the time compression over the estimation interval, but also the gradient of the time compression, thus allowing more accurate (with timevarying sampling rate) resampling the received signal to compensate for the Doppler distortions. The proposed method is compared with a known autocorrelation technique and the technique based on computing the cross-ambiguity function between the received and pilot signals. The comparison is performed using ocean experiments at short and long distances. The short-range experiment is at a distance of about 3 km with drifting transmitter and receiver (at a speed of 0.5 m/s) and a few discrete multipath components. The long-range experiment is at a distance of 80 km with a transmitter moving at a speed of 6 m/s and a large number of scattered multipath components. The transmitted signal is a pilot-added guard-free OFDM signal. The results demonstrate that, in both the experiments, the proposed technique outperforms the known autocorrelation technique and comparable in the performance with the cross-ambiguity method. The performance improvement is especially significant in the second experiment, where the known autocorrelation method is not capable of providing reliable demodulation of the transmitted data, whereas the proposed technique performs similarly to the crossambiguity method.
underwater acoustic communication
Zakharov, Yuriy
2abf7642-edba-4f15-8b98-4caca66510f6
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e
21 June 2015
Zakharov, Yuriy
2abf7642-edba-4f15-8b98-4caca66510f6
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e
Zakharov, Yuriy and Li, Jianghui
(2015)
Autocorrelation method for estimation of Doppler parameters in fast-varying underwater acoustic channels.
3rd Underwater Acoustics Conference & Exhibition, , Island of Crete, Greece.
21 - 26 Jun 2015.
8 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
In this paper, we propose and investigate a low-complexity technique for estimating the Doppler parameters in fast-varying underwater acoustic channels. This technique can be used in communication systems with periodically transmitted spread spectrum pilot signals. The known autocorrelation techniques for Doppler estimation suffer from low accuracy in channels fast-varying over the estimation interval. The proposed technique avoids such a problem by introducing a multichannel estimator. The proposed technique not only measures the time compression over the estimation interval, but also the gradient of the time compression, thus allowing more accurate (with timevarying sampling rate) resampling the received signal to compensate for the Doppler distortions. The proposed method is compared with a known autocorrelation technique and the technique based on computing the cross-ambiguity function between the received and pilot signals. The comparison is performed using ocean experiments at short and long distances. The short-range experiment is at a distance of about 3 km with drifting transmitter and receiver (at a speed of 0.5 m/s) and a few discrete multipath components. The long-range experiment is at a distance of 80 km with a transmitter moving at a speed of 6 m/s and a large number of scattered multipath components. The transmitted signal is a pilot-added guard-free OFDM signal. The results demonstrate that, in both the experiments, the proposed technique outperforms the known autocorrelation technique and comparable in the performance with the cross-ambiguity method. The performance improvement is especially significant in the second experiment, where the known autocorrelation method is not capable of providing reliable demodulation of the transmitted data, whereas the proposed technique performs similarly to the crossambiguity method.
This record has no associated files available for download.
More information
Accepted/In Press date: 1 April 2015
Published date: 21 June 2015
Venue - Dates:
3rd Underwater Acoustics Conference & Exhibition, , Island of Crete, Greece, 2015-06-21 - 2015-06-26
Keywords:
underwater acoustic communication
Identifiers
Local EPrints ID: 425103
URI: http://eprints.soton.ac.uk/id/eprint/425103
PURE UUID: 2467385e-7338-40a2-affa-776aa57ed84c
Catalogue record
Date deposited: 10 Oct 2018 16:30
Last modified: 05 Dec 2023 17:53
Export record
Contributors
Author:
Yuriy Zakharov
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
