Alyaa Al-Barrak scite author profile

Alyaa Al-Barrak

4Publications

15Citation Statements Received

4Citation Statements Given

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Affiliations

University of Baghdad, University of Northampton

Publications

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Enhancing BER Performance Limit of BCH and RS Codes Using Multipath Diversity

et al. 2017

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Modern wireless communication systems suffer from phase shifting and, more importantly, from interference caused by multipath propagation. Multipath propagation results in an antenna receiving two or more copies of the signal sequence sent from the same source but that has been delivered via different paths. Multipath components are treated as redundant copies of the original data sequence and are used to improve the performance of forward error correction (FEC) codes without extra redundancy, in order to improve data transmission reliability and increase the bit rate over the wireless communication channel. For a proof of concept Bose, Ray-Chaudhuri, and Hocquenghem (BCH) and Reed-Solomon (RS) codes have been used for FEC to compare their bit error rate (BER) performances. The results showed that the wireless multipath components significantly improve the performance of FEC. Furthermore, FEC codes with low error correction capability and employing the multipath phenomenon are enhanced to perform better than FEC codes which have a bit higher error correction capability and did not utilise the multipath. Consequently, the bit rate is increased, and communication reliability is improved without extra redundancy.

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Utilisation of multipath phenomenon to improve the performance of BCH and RS codes

Al-Barrak

Al-Sherbaz

Kanakis

et al. 2016

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Abstract-In wireless communication, there exists a phenomenon know as 'multipath'. This phenomenon is considered as a disadvantage because it causes interference. The multipath phenomenon results in an antenna receiving two or more signals from the same sent signal from different paths. This paper considers them as redundant copies of the transmitted data and utilises them to improve the performance of forward error correction (FEC) codes without extra redundancy, in order to improve data transmission reliability and increase the bit rate over wireless communication channels. The system was evaluated in bit error rate (BER) and used Bose, Ray-Chaudhuri and Hocquenghem (BCH) and Reed-Solomon (RS) codes as FEC. The results showed that the utilisation of the multipath improves the performance of FEC. Furthermore, the performance of FEC codes had t1 error correction capability and employed the multipath is better than FEC codes have t2 error correction capability and without the multipath, where t1 < t2. Consequently, the bit rate is increased, and communication reliability is improved without extra redundancy.

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Impact of Alamouti Space – Time Block Coding on the Performance of Vehicle – to – Vehicle Communication

Al-Barrak

Al-Khalil

2018

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Performance of BCH and RS Codes in MIMO System Using MPFEC Diversity Technique

Al-Khalil

Al-Barrak

2018

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Alyaa Al-Barrak

Enhancing BER Performance Limit of BCH and RS Codes Using Multipath Diversity

Utilisation of multipath phenomenon to improve the performance of BCH and RS codes

Impact of Alamouti Space – Time Block Coding on the Performance of Vehicle – to – Vehicle Communication

Performance of BCH and RS Codes in MIMO System Using MPFEC Diversity Technique

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