HDL-based LDPC-RS encoder-decoder with MEA technique for resilient zedBoard communication

Error correction coding has been integral to digital communications since the introduction of Hamming codes and Reed-Solomon codes, with Low-Density Parity-Check (LDPC) codes later enhancing performance in modern systems. This work presents a hardware-based implementation of a resilient and efficien...

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Bibliographic Details
Published in:Engineering Research Express Vol. 7; no. 4; pp. 45237 - 45251
Main Authors: Verma, Archana, Singh, Arun Kumar, Chauhan, Amit Kr Singh, Upadhyay, Ashwini Kumar, Singh, Aman, Pathak, Harsh
Format: Journal Article
Language:English
Published: IOP Publishing 31.12.2025
Subjects:
encoder-decoder architecture
error correction
low-density parity-check (LDPC) codes
modified euclidean algorithm (MEA)
ISSN:2631-8695, 2631-8695
Online Access:Get full text
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Summary:Error correction coding has been integral to digital communications since the introduction of Hamming codes and Reed-Solomon codes, with Low-Density Parity-Check (LDPC) codes later enhancing performance in modern systems. This work presents a hardware-based implementation of a resilient and efficient wireless communication system that integrates LDPC and Reed-Solomon (RS) codes for robust error correction. The architecture employs an LDPC (8,7) code as the outer code and an RS (8,2) code as the inner code, with interleaving applied between them to effectively mitigate burst errors and inter-symbol interference (ISI). The RS decoder is implemented using the Modified Euclidean algorithm (MEA), enabling efficient symbol-level error correction with reduced hardware complexity. The entire design is modeled in VHDL and synthesized using the Xilinx Vivado Design Suite for deployment on a Zynq-7000-based ZedBoard FPGA. Wireless transmission is carried out via the HC-12 SI4463 transceiver operating at 433 MHz. Simulation and on-board testing demonstrate that the concatenated LDPC–RS coding approach significantly improves bit error rate (BER) performance under noisy and dispersive channel conditions. The proposed system offers a reliable and resource-optimized solution for embedded wireless applications and FPGA-based communication platforms.
Bibliography:ERX-111448.R1
ISSN:2631-8695
2631-8695
DOI:10.1088/2631-8695/ae139c