Optimized Error Detection and Correction in ATM Networks Using the Enhanced Berlekamp Massey Algorithm With Hybrid Automatic Repeat Request
Asynchronous Transfer Mode (ATM) is a widely used communication method known for its high bandwidth features and low latency. It uses fixed size cells, namely 53 bytes, including 48 bytes for the real data and five bytes set for control purposes. To help in resolving any transmission issues, the con...
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| Vydáno v: | IEEE access Ročník 13; s. 97737 - 97750 |
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| Médium: | Journal Article |
| Jazyk: | angličtina |
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2025
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| ISSN: | 2169-3536, 2169-3536 |
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| Abstract | Asynchronous Transfer Mode (ATM) is a widely used communication method known for its high bandwidth features and low latency. It uses fixed size cells, namely 53 bytes, including 48 bytes for the real data and five bytes set for control purposes. To help in resolving any transmission issues, the control information contains components such as a Virtual Path Identifier (VPI), Virtual Channel Identifier (VCI), and Cyclic Redundancy Check (CRC). While Automatic Repeat Request (ARQ) can cause delays because of retransmissions, Forward Error Correction (FEC) improves efficiency by fixing errors without the need of data retransmissions. Reed-Solomon (RS) codes are widely used in ATM networks because of their ability in correcting burst errors. The proposed Enhanced Berlekamp Massey Algorithm (EBMA) improves RS error correction by updating only the essential polynomial coefficients. Not only the proposed algorithm cuts decoding complexity and processing time but also it makes it suitable for real time and modern communication networks like ATM. The simulation results confirm that the integration of EBMA and Hybrid Automatic Repeat Request (HARQ) succeeds remarkable gains in Bit Error Rate (BER) and power efficiency. Furthermore, a new adaptive algorithm has been developed that simplifies the process by dynamically modifying decoding parameters in real time according to channel conditions. This minimizes the need for unnecessary computations. The results show that EBMA can really improve the transmission reliability and data integrity in ATM networks. |
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| AbstractList | Asynchronous Transfer Mode (ATM) is a widely used communication method known for its high bandwidth features and low latency. It uses fixed size cells, namely 53 bytes, including 48 bytes for the real data and five bytes set for control purposes. To help in resolving any transmission issues, the control information contains components such as a Virtual Path Identifier (VPI), Virtual Channel Identifier (VCI), and Cyclic Redundancy Check (CRC). While Automatic Repeat Request (ARQ) can cause delays because of retransmissions, Forward Error Correction (FEC) improves efficiency by fixing errors without the need of data retransmissions. Reed-Solomon (RS) codes are widely used in ATM networks because of their ability in correcting burst errors. The proposed Enhanced Berlekamp Massey Algorithm (EBMA) improves RS error correction by updating only the essential polynomial coefficients. Not only the proposed algorithm cuts decoding complexity and processing time but also it makes it suitable for real time and modern communication networks like ATM. The simulation results confirm that the integration of EBMA and Hybrid Automatic Repeat Request (HARQ) succeeds remarkable gains in Bit Error Rate (BER) and power efficiency. Furthermore, a new adaptive algorithm has been developed that simplifies the process by dynamically modifying decoding parameters in real time according to channel conditions. This minimizes the need for unnecessary computations. The results show that EBMA can really improve the transmission reliability and data integrity in ATM networks. |
| Author | Aykac, Mahmut |
| Author_xml | – sequence: 1 givenname: Mahmut orcidid: 0000-0003-2977-9719 surname: Aykac fullname: Aykac, Mahmut email: maykac@gantep.edu.tr organization: Department of Electrical and Electronics Engineering, Gaziantep University, Gaziantep, Türkiye |
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| SubjectTerms | Adaptive algorithms Algorithms Asynchronous transfer mode ATM networks Automated teller machine networks Automatic repeat request Bit error rate Communication networks Decoding enhanced Berlekamp-Massey algorithm Error correction Error correction & detection Error detection Forward error correction hybrid ARQ Low latency communication Network latency Parameter modification Polynomials Power efficiency Real time Receivers Redundancy Reliability Signal to noise ratio Wireless communication |
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| Title | Optimized Error Detection and Correction in ATM Networks Using the Enhanced Berlekamp Massey Algorithm With Hybrid Automatic Repeat Request |
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