Wireless communications in cavity: A reconfigurable boundary modulation based approach
ICC 2024-IEEE International Conference on Communications, 2024•ieeexplore.ieee.org
This paper explores the potential wireless communication applications of Reconfigurable
Intelligent Surfaces (RIS) in reverberant wave propagation environments. Unlike in free
space, we utilize the sensitivity to boundaries of the enclosed electromagnetic (EM) field and
the equivalent perturbation of RISs. For the first time, we introduce the framework of
reconfigurable boundary modulation in the cavities. We have proposed a robust boundary
modulation scheme that exploits the continuity of object motion and the mutation of the …
Intelligent Surfaces (RIS) in reverberant wave propagation environments. Unlike in free
space, we utilize the sensitivity to boundaries of the enclosed electromagnetic (EM) field and
the equivalent perturbation of RISs. For the first time, we introduce the framework of
reconfigurable boundary modulation in the cavities. We have proposed a robust boundary
modulation scheme that exploits the continuity of object motion and the mutation of the …
This paper explores the potential wireless communication applications of Reconfigurable Intelligent Surfaces (RIS) in reverberant wave propagation environments. Unlike in free space, we utilize the sensitivity to boundaries of the enclosed electromagnetic (EM) field and the equivalent perturbation of RISs. For the first time, we introduce the framework of reconfigurable boundary modulation in the cavities. We have proposed a robust boundary modulation scheme that exploits the continuity of object motion and the mutation of the codebook switch, which achieves pulse position modulation (PPM) by RIS-generated equivalent pulses for wireless communication in cavities. This approach achieves around 2 Mbps bit rate in the prototype and demonstrates strong resistance to channel's frequency selectivity resulting in an extremely low bit error rate (BER).
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