面向VANET和无线传感器节点的公钥加密处理器可重构硬件架构

G. Leelavathi, K. Shaila, K. Venugopal
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引用次数: 1

摘要

这项工作提出了文本和图像数据的加密,嵌入为椭圆曲线点。有限域算法在这个可重新配置的密码系统中得到了有效的利用。使用MATLAB对文本数据和图像输入转换进行了预计算。该架构是为加密应用程序和VANET量身定制的,使用Xilinx Spartan-xc3s100e-4-fg320 FPGA和Verilog编码。对于100×100个图像,总加密和解密时间约为10.09021微秒,对于256×256个图像,约为22.091微秒,对于消息,约为0.029微秒。消息大小随着不同的流大小和输入数据的动态映射而变化,并且具有高随机性的密码图像指示良好的安全性,即不易受到攻击。对纯图像和加密图像进行熵统计分析,以评估所提出方法的强度。加密吞吐率为450Mbps,区域吞吐量为3.63,这比以前的实现方式有了很好的改进。
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Reconfigurable hardware architecture of public key crypto processor for VANET and wireless sensor nodes
This work proposes encryption of text and image data, embedding as elliptic curve point. Finite field arithmetic is utilised efficiently in this reconfigurable crypto system. Pre-computations for text data and image input conversion is done using MATLAB. This architecture is tailored for cryptographic applications and VANET using Xilinx Spartan-xc3s100e-4-fg320 FPGA with Verilog coding. Total encryption and decryption time results around 10.09021 microseconds for 100×100 images, 22.091 microseconds for 256×256 images and 0.029 microseconds for a message. The message size is varied with different stream size and dynamic mapping of input data and a cipher image with high randomness indicates good security i.e., less vulnerable to attacks. An entropy statistical analysis is performed on plain and encrypted images to assess the strength of the proposed method. An encryption throughput rate is 450 Mbps and area throughput 3.63, which is a good improvement over previous implementations.
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来源期刊
International Journal of Vehicle Information and Communication Systems
International Journal of Vehicle Information and Communication Systems Computer Science-Computer Science Applications
CiteScore
1.20
自引率
0.00%
发文量
15
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