I-Corps Teams: Addressing Information Security with Channel Codes

I-Corps 团队：通过通道代码解决信息安全问题

• 批准号: 1646653
• 负责人: Jared Oluoch
• 金额: $ 5万
• 依托单位: University of Toledo
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2016
• 资助国家: 美国
• 起止时间: 2016-08-15 至 2018-01-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1646653&HistoricalAwards=false
• 关键词: Corps; Teams; Addressing; Information; Security

The broader impact/commercial potential of this I-Corps project is to improve data security by preventing eavesdropping on a communication channel. This project takes into consideration the location of potential eavesdroppers and fading channel signals to prevent unauthorized access to communication. The project will enhance information security by providing a technology that uses less computation power, while insuring longer battery life, to secure communication. The project provides an alternative choice for securing communication by not relying on traditional encryption, which sometimes has been vulnerable to attacks. The potential application of this I-Corps project includes, but is not limited to: financial sector, military, government research institutions, healthcare, and other security-sensitive applications.This I-Corps project utilizes a combination of signaling and coding techniques to provide security against eavesdroppers by not relying on a secret pair of keys that traditional cryptography schemes are known for. This technology uses a combination of channel codes and physical location of eavesdroppers to prevent the eavesdroppers from gaining access to the communication wave. The research for this project enhanced security by using a lower probability of message detection and error correction technique at the physical layer of the internet model. The technology adds bits to messages and ensures that the messages cannot be decoded by eavesdroppers. More specifically, the technology exploits degrading signals, noise, interference, and localization techniques to provide secure communication. The proposed technology uses less computation power than traditional approaches and is thus a great fit for biological sensors. This scheme achieves information confidentiality, integrity and authentication.

这个I-Corps项目的更广泛的影响/商业潜力是通过防止对通信信道的窃听来提高数据安全性。该项目考虑了潜在窃听者的位置和信道信号的衰落，以防止未经授权的通信访问。该项目将提供一种使用更少计算能力的技术，同时确保更长的电池寿命，以确保通信安全，从而提高信息安全性。该项目提供了另一种选择，可以通过不依赖传统加密来保护通信，传统加密有时很容易受到攻击。这个I-Corps项目的潜在应用包括但不限于：金融部门、军事、政府研究机构、医疗保健和其他安全敏感应用。这个I-Corps项目利用信号和编码技术的组合，通过不依赖传统加密方案所知的一对秘密密钥来提供针对窃听者的安全性。该技术利用信道编码和窃听者的物理位置相结合的方法来防止窃听者获取通信波。本课题的研究通过在internet模型的物理层使用低概率的消息检测和纠错技术来增强安全性。该技术将比特添加到信息中，并确保信息不会被窃听者解码。更具体地说，该技术利用退化信号、噪声、干扰和定位技术来提供安全通信。该技术比传统方法使用更少的计算能力，因此非常适合生物传感器。该方案实现了信息的保密性、完整性和认证。