Optimization of Underwater Channel Performance through Polar Code-OFDM Models

Background: Because of signal attenuation, multipath fading, and Doppler phenomena, the underwater environment provides unique obstacles for communication channels. Traditional approaches often need to address these issues appropriately. Objective: This article aims to investigate the possibility of...

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Hauptverfasser:	Abdulameer, Sadeer Dheyaa, Taher, Nada Adnan, Alatba, Sura Rahim, Qasim, Nameer Hashim, Dorenskyi, Oleksandr
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bit error rate block error rate (ber) cyclic redundancy check bit (crc-bit) Data communication Data models Encoding OFDM orthogonal frequency division multiplexing (ofdm) polar code (pc) robustness signal reception signal-to-noise ratio (snr) System performance underwater channel (uwc) Underwater communication
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creator	Abdulameer, Sadeer Dheyaa Taher, Nada Adnan Alatba, Sura Rahim Qasim, Nameer Hashim Dorenskyi, Oleksandr
description	Background: Because of signal attenuation, multipath fading, and Doppler phenomena, the underwater environment provides unique obstacles for communication channels. Traditional approaches often need to address these issues appropriately. Objective: This article aims to investigate the possibility of combining polar codes with OFDM (Orthogonal Frequency Division Multiplexing) methods to improve the performance and reliability of underwater communication systems. Methods: The suggested models combine polar codes' capacity-achieving and error-correcting qualities with the robustness of OFDM against impairments such as impulsive noise. Key parameters such as bit error rate (BER), signal-to-noise ratio (SNR), and channel capacity were examined to assess the model's efficacy. Results: Compared to traditional communication systems, simulations and tests show a 30% reduction in BER, a 20% increase in SNR, and a 25% increase in channel capacity. These measures highlight the tremendous advances in underwater channel performance that polar code-OFDM models provide. Conclusion: The combination of polar codes with OFDM is a viable method for improving the capabilities of underwater communication systems. The significant gains in performance indicators suggest potential applications in underwater sensor networks, oceanographic data transmission, underwater robotics, and deep-sea research. This study makes an important contribution to the advancement and dependability of underwater communication systems.
doi_str_mv	10.23919/FRUCT61870.2024.10516418
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Traditional approaches often need to address these issues appropriately. Objective: This article aims to investigate the possibility of combining polar codes with OFDM (Orthogonal Frequency Division Multiplexing) methods to improve the performance and reliability of underwater communication systems. Methods: The suggested models combine polar codes' capacity-achieving and error-correcting qualities with the robustness of OFDM against impairments such as impulsive noise. Key parameters such as bit error rate (BER), signal-to-noise ratio (SNR), and channel capacity were examined to assess the model's efficacy. Results: Compared to traditional communication systems, simulations and tests show a 30% reduction in BER, a 20% increase in SNR, and a 25% increase in channel capacity. These measures highlight the tremendous advances in underwater channel performance that polar code-OFDM models provide. Conclusion: The combination of polar codes with OFDM is a viable method for improving the capabilities of underwater communication systems. The significant gains in performance indicators suggest potential applications in underwater sensor networks, oceanographic data transmission, underwater robotics, and deep-sea research. 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Traditional approaches often need to address these issues appropriately. Objective: This article aims to investigate the possibility of combining polar codes with OFDM (Orthogonal Frequency Division Multiplexing) methods to improve the performance and reliability of underwater communication systems. Methods: The suggested models combine polar codes' capacity-achieving and error-correcting qualities with the robustness of OFDM against impairments such as impulsive noise. Key parameters such as bit error rate (BER), signal-to-noise ratio (SNR), and channel capacity were examined to assess the model's efficacy. Results: Compared to traditional communication systems, simulations and tests show a 30% reduction in BER, a 20% increase in SNR, and a 25% increase in channel capacity. These measures highlight the tremendous advances in underwater channel performance that polar code-OFDM models provide. Conclusion: The combination of polar codes with OFDM is a viable method for improving the capabilities of underwater communication systems. The significant gains in performance indicators suggest potential applications in underwater sensor networks, oceanographic data transmission, underwater robotics, and deep-sea research. 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Traditional approaches often need to address these issues appropriately. Objective: This article aims to investigate the possibility of combining polar codes with OFDM (Orthogonal Frequency Division Multiplexing) methods to improve the performance and reliability of underwater communication systems. Methods: The suggested models combine polar codes' capacity-achieving and error-correcting qualities with the robustness of OFDM against impairments such as impulsive noise. Key parameters such as bit error rate (BER), signal-to-noise ratio (SNR), and channel capacity were examined to assess the model's efficacy. Results: Compared to traditional communication systems, simulations and tests show a 30% reduction in BER, a 20% increase in SNR, and a 25% increase in channel capacity. These measures highlight the tremendous advances in underwater channel performance that polar code-OFDM models provide. Conclusion: The combination of polar codes with OFDM is a viable method for improving the capabilities of underwater communication systems. The significant gains in performance indicators suggest potential applications in underwater sensor networks, oceanographic data transmission, underwater robotics, and deep-sea research. This study makes an important contribution to the advancement and dependability of underwater communication systems.</abstract><pub>FRUCT</pub><doi>10.23919/FRUCT61870.2024.10516418</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Bit error rate block error rate (ber) cyclic redundancy check bit (crc-bit) Data communication Data models Encoding OFDM orthogonal frequency division multiplexing (ofdm) polar code (pc) robustness signal reception signal-to-noise ratio (snr) System performance underwater channel (uwc) Underwater communication
title	Optimization of Underwater Channel Performance through Polar Code-OFDM Models
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