JSACC dynamically switches between secrecy and covert modes using RIS, derives closed-form outage probability and ergodic rate, shows diversity order depends on Nakagami parameters and RIS elements, and outperforms conventional secrecy communication in simulations.
Achieving covertness and secrecy: a new paradigm for secure wireless communica- tion
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Joint Secrecy and Covert Communication (JSACC): An Enhanced Physical Layer Security Approach
JSACC dynamically switches between secrecy and covert modes using RIS, derives closed-form outage probability and ergodic rate, shows diversity order depends on Nakagami parameters and RIS elements, and outperforms conventional secrecy communication in simulations.