Design and implementation of scrambling and decoding circuits

Applied and Computational Engineering Pub Date : 2024-07-26 DOI:10.54254/2755-2721/72/20241032

Peixiang Sun, Zefeng Yan, Ye Zhang

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Abstract

Scrambling decoding technology is now widely used in the transmission of digital signals. The circuit design is an important basis for the realization of adding and de-scrambling. So the researchers take the design and implementation of scrambling and decoding circuit as the research topic of this paper. In this study, the circuit is designed according to the demand, so that the circuit can complete the construction of pseudo-random sequences, and then the module division is carried out to determine the specific work completed by different modules. Finally, according to the designed circuit and module design simulation, the accuracy of the early design is verified. The results show that after the original data is input, the output data can be the same as the input data after the circuits scrambling operation to achieve the purpose of designing the scrambling circuit. Through this experiment, the researchers hope that the research content can better promote the security and accuracy of data transmission. At the same time, with the optimization of the existing coding technology, researchers expect to have a more efficient decoding process, reduce errors, and improve the data recovery rate.

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加扰和解码电路的设计与实现

目前，加扰解码技术已广泛应用于数字信号的传输。电路设计是实现加解扰的重要基础。因此，研究人员将加解扰电路的设计与实现作为本文的研究课题。本研究根据需求设计电路，使电路能够完成伪随机序列的构建，然后进行模块划分，确定不同模块完成的具体工作。最后，根据设计的电路和模块设计仿真，验证前期设计的准确性。结果表明，原始数据输入后，经过电路加扰运算，输出数据可以与输入数据一致，达到设计加扰电路的目的。通过此次实验，研究人员希望研究内容能更好地促进数据传输的安全性和准确性。同时，通过对现有编码技术的优化，研究人员期望能够拥有更高效的解码过程，减少错误，提高数据恢复率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Applied and Computational Engineering

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