基于DES的神经密码编码:在陆地移动卫星(LMS)信道上的Turbo

Rajashri Khanai, G. Kulkarni, Dattaprasad Torse
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引用次数: 4

摘要

现代无线通信对具有重要安全机制的可靠通信的要求越来越高。本文将密码学和纠错编码结合在一个步骤中,称为“密码编码”。重点研究了神经网络在加密编码中的应用。这种方法为可靠传输提供了数据安全性,因为加密和纠错在一个步骤中完成。在陆地移动卫星(LMS)信道上评估了计算成本和提高效率,主要体现在实际系统性能上。我们将数据加密标准(DES)和Turbo编码结合在一起,以显著减少实现。许多实验研究表明,该技术适用于密码学和纠错编码的选定领域。仿真结果表明,当数据长度为1024比特时,神经网络加密编码的误码率接近于加密编码,在信噪比为10 dB的情况下,误码率约为4 × 10-5。所提出的算法非常适合在vlsi平台上实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neural Crypto-Coding as DES: Turbo over Land Mobile Satellite (LMS) channel
Modern wireless communications have increased requirements for reliable communication with significant security mechanisms. In this paper cryptography and error correction coding is combined in a single step known as “Crypto-Coding”. The focus is on the application of neural networks to Crypto- Coding. This approach provides data security for reliable transmission as encryption and error correction takes place in a single step. The computational costs and increase efficiency, mainly in practical system performance is evaluated over Land Mobile Satellite (LMS) channel. We are combining Data Encryption Standard (DES) and Turbo coding in a single step to significantly reduce realizations. A number of experimental studies show applicability of the technique to a selected set of areas in cryptography and error correction coding. Simulation results show that the BER performance of the neural Crypto- Coding is close to the Crypto-Coding, for data length equal to 1024 bits, and achieves a BER of about 4 × 10-5 at an SNR of 10 dB. The proposed algorithms are well suited for implementation on a VLSI-platform.
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