STLFM signal based adaptive synchronization for underwater acoustic communications
STLFM signal based adaptive synchronization for underwater acoustic communications
In underwater acoustic communications (UAC), signal synchronization plays a key role in the performance. It is usually performed using a known preamble transmitted prior to the data. However, the underwater acoustic (UWA) channel is characterized as time-varying and frequency-varying, which makes the preamble fluctuated as well as the transmitted data. Thus, it contains uncertainty to set a constant threshold for synchronization by using information (e.g., Doppler shift) extracted from the preamble. In this work, we propose an adaptive scheme for UAC synchronization. The scheme uses the symmetrical triangular linear
frequency modulation (STLFM) signal to design a Fractional Fourier Transform (FrFT) based detection algorithm. It establishes the frame synchronization by detecting the deviation of the two energy peaks which usually emerge in their “optimal” FrFT domain in pairs. Instead of detecting the absolute peaks, the proposed method performs an initial synchronization and a precise correction based on the relative positional relationship and amplitude attenuation of the two peaks, which makes full use of the two peaks of the STLFM signal in the FRFT domain. The effectiveness of the scheme has been verified by simulations and field works. The results suggest that it is able to peak the time-varying signal amplitude for each frame in UWA channels. Besides, the proposed scheme performs better accuracy and stability in the frame synchronization compared to traditional methods, which is shown as three times less detection error and five to ten times dropping of mean square error (MSE).
STLFM , FrFT , underwater acoustic communication , frame synchronization
Yuan, Fei
6378b428-b74b-41f7-8588-3e9e4b21cc07
Jia, Zhenyu
3fa86e7c-c36e-490c-8d6b-dbdba7db6f7c
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e
Cheng, En
c9f2d73d-f62b-4b93-86fa-de318c7b340f
27 February 2019
Yuan, Fei
6378b428-b74b-41f7-8588-3e9e4b21cc07
Jia, Zhenyu
3fa86e7c-c36e-490c-8d6b-dbdba7db6f7c
Li, Jianghui
9c589194-00fa-4d42-abaf-53a32789cc5e
Cheng, En
c9f2d73d-f62b-4b93-86fa-de318c7b340f
Yuan, Fei, Jia, Zhenyu, Li, Jianghui and Cheng, En
(2019)
STLFM signal based adaptive synchronization for underwater acoustic communications.
IEEE Access, 7.
(doi:10.1109/ACCESS.2019.2901357).
Abstract
In underwater acoustic communications (UAC), signal synchronization plays a key role in the performance. It is usually performed using a known preamble transmitted prior to the data. However, the underwater acoustic (UWA) channel is characterized as time-varying and frequency-varying, which makes the preamble fluctuated as well as the transmitted data. Thus, it contains uncertainty to set a constant threshold for synchronization by using information (e.g., Doppler shift) extracted from the preamble. In this work, we propose an adaptive scheme for UAC synchronization. The scheme uses the symmetrical triangular linear
frequency modulation (STLFM) signal to design a Fractional Fourier Transform (FrFT) based detection algorithm. It establishes the frame synchronization by detecting the deviation of the two energy peaks which usually emerge in their “optimal” FrFT domain in pairs. Instead of detecting the absolute peaks, the proposed method performs an initial synchronization and a precise correction based on the relative positional relationship and amplitude attenuation of the two peaks, which makes full use of the two peaks of the STLFM signal in the FRFT domain. The effectiveness of the scheme has been verified by simulations and field works. The results suggest that it is able to peak the time-varying signal amplitude for each frame in UWA channels. Besides, the proposed scheme performs better accuracy and stability in the frame synchronization compared to traditional methods, which is shown as three times less detection error and five to ten times dropping of mean square error (MSE).
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More information
Accepted/In Press date: 19 February 2019
Published date: 27 February 2019
Keywords:
STLFM , FrFT , underwater acoustic communication , frame synchronization
Identifiers
Local EPrints ID: 429280
URI: http://eprints.soton.ac.uk/id/eprint/429280
ISSN: 2169-3536
PURE UUID: 2f4f19d3-d666-44f8-9900-073ebb77476b
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Date deposited: 25 Mar 2019 17:30
Last modified: 16 Mar 2024 00:25
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Author:
Fei Yuan
Author:
Zhenyu Jia
Author:
En Cheng
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