Analysis of a digital data transmission system over a noisy communication channel based on the Huffman compression method and encoding using Bose-Chaudhuri-Hocquenghem cyclic codes
Abstract
Analysis of a digital data transmission system over a noisy communication channel based on the Huffman compression method and encoding using Bose-Chaudhuri-Hocquenghem cyclic codes
Incoming article date: 24.06.2025Analysis of a digital data transmission system through a noisy communication channel based on the Huffman compression method and encoding using cyclic Bose-Chowdhury-Hockingham codes This article examines the effectiveness of a digital data transmission system through a noisy communication channel using the Huffman compression method and cyclic BCH encoding (Bose-Chowdhury-Hockingham). Huffman compression reduces data redundancy, which increases the effective transmission rate, while BCH codes detect and correct errors caused by channel noise. The analysis likely includes evaluating parameters such as compression ratio, data transmission rate, error probability after decoding, and computational complexity of the algorithms. The results demonstrate the effectiveness of this combination of techniques in improving data transmission reliability in noisy environments.
Keywords: " digital transmission system, cyclic coding, compression ratio, decoding, encoding"