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Pilot Enrichment Methods for Improving Quality of Received Signal in Underwater Acoustic OFDM Systems

Nguyen, T.N. and Phan, H.A. and Cao, V.L. and Nguyen, T.H. and Hiep, P.T. (2022) Pilot Enrichment Methods for Improving Quality of Received Signal in Underwater Acoustic OFDM Systems. In: Conference of 15th International Conference on Advanced Technologies for Communications, ATC 2022, 20 October 2022 Through 22 October 2022, Hanoi.

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Abstract

In OFDM systems, pilots are usually sent along with the data carriers to calculate channel impulse response (CIR) for channel estimation. However, transmitted signals are normally distorted by many environmental factors when propagating through underwater communication channels. Thus, the original pilots seem to be not enough to recover 'good' CIR for channel estimation in underwater acoustic OFDM (UWA-OFDM) systems. Recent studies have developed data pilot-aided (DPA) strategies, known as STA and CDP, for time-variant channels like vehicle-to-vehicle (V2V) communications. These methods work on the assumption of high cross-correlation of CR between two adjacent data symbols and the support of two long training symbols in the IEEE 802.11p packet. These conditions are not provided in the UWA-OFDM systems, which leads to be infeasible to apply existing DPA strategies. Therefore, this paper introduces a novel pilot enrichment (PE) method for improving the performance of the channel estimation in UWA-OFDM systems. The core idea is that some data subcarriers are extracted under a condition related to constellation mapping for creating supplementary 'pilots'. The 'pilots' are used together with the original pilots for channel estimation. Our method is evaluated in comparison to the MMSE estimation on various modulation schemes. The experimental results illustrate that the PE estimator can perform better than the MMSE estimator in terms of bit error rate (BER), especially on medium and high SNR values. © 2022 IEEE.

Item Type: Conference or Workshop Item (Paper)
Divisions: Faculties > Faculty of Information Technology
Faculties > Faculty of Radio-Electronic Engineering
Identification Number: 10.1109/ATC55345.2022.9943030
Uncontrolled Keywords: Bit error rate; Channel estimation; Impulse response; Signal to noise ratio; Underwater acoustic communication; Underwater acoustics; Vehicle to vehicle communications, Channel impulse response; Condition; Data carriers; LS; MMSE; OFDM systems; Pilot aided; Pilot enrichment; Received signals; Underwater acoustic OFDM, Orthogonal frequency division multiplexing
Additional Information: Conference of 15th International Conference on Advanced Technologies for Communications, ATC 2022 ; Conference Date: 20 October 2022 Through 22 October 2022; Conference Code:184412
URI: http://eprints.lqdtu.edu.vn/id/eprint/10624

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