Security Enhancement in Optical Wireless Visible Light Communication

Naresh Kumar Meena, Ashutosh Kumar Singh, Chandan Kumar
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Abstract

Since the development of remote applications and benefit, the request for a secure and quick information exchange association requires unused innovation arrangements competent to guarantee the finest countermeasure against security assaults, it is one of the foremost promising unused remote communication innovation, due to the plausibility of utilizing natural counterfeit lights as information exchange channel in free- space. The broadcast nature of VLC makes it fundamental to consider the security of fundamental transmissions. Physical layer information communication and security beneath the channel has ended up a raising concern for communication analysts and due to the victory of physical layer security (PLS) in making strides the security of radio-frequency (RF) remote systems, expanding such PLS techniques to VLC frameworks has been of incredible intrigued. By analysing some cases of the conceivable busybody dangers that can happen in these frameworks, this offers novel bits of knowledge into the vulnerabilities of state-of-the-art PLS plans for VLC frameworks, counting distinctive channel models, input disseminations, arrange arrangements, precoding/signalling techniques, and mystery capacity and data rates and beneath VLC the tall level security and security overhauling arrangements are educated and moderated a period. Key Words: Visible Light, Physical layer security, Multi User, Spread-spectrum, security performance.
增强光学无线可见光通信的安全性
由于远程应用和利益的发展,对安全和快速信息交换协会的要求要求未使用的创新安排能够保证对安全攻击的最佳对策,它是最有前途的未使用的远程通信创新之一,因为在自由空间中利用自然假光作为信息交换通道是可行的。VLC 的广播性质使其必须考虑基本传输的安全性。由于物理层安全(PLS)在提高射频(RF)远程系统安全性方面取得了巨大成功,因此将物理层安全技术扩展到 VLC 框架已引起了人们的极大兴趣。通过分析在这些框架中可能发生的潜在危险,这本书为 VLC 框架中最先进的 PLS 计划的脆弱性提供了新的知识,包括不同的信道模型、输入传播、排列组合、预编码/信令技术、神秘容量和数据速率,以及在 VLC 下对高层安全和安全检修安排的教育和调节。关键字:可见光、物理层安全、多用户、扩频、安全性能。
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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