Data at the physical layer transmits via media such as copper cable, fiber optic, or wireless. Physical attack vectors exist that challenge data confidentiality and availability. Protocols and encryption standards help obfuscate but often cannot keep the data type and destination secure, with limited insight into confidentiality and integrity. We will investigate the feasibility of developing an awareness and integrity protocol to help mitigate physical side-channel attacks that lead to eavesdropping of data communication and denial-of-service. Keywords: data confidentiality, siphoning, eavesdropping, person-in-the-middle, denial-of-service, physical layer attacks, nation-states

翻译：物理层数据通过铜缆、光纤或无线等介质传输。现有物理攻击向量对数据机密性和可用性构成威胁。协议与加密标准虽有助于混淆数据，但通常无法保障数据类型与目的地的安全，且在机密性与完整性方面洞察有限。本研究将探讨开发一种感知与完整性协议的可行性，以协助缓解导致数据通信窃听与拒绝服务的物理侧信道攻击。关键词：数据机密性、窃取、窃听、中间人攻击、拒绝服务、物理层攻击、国家行为体