Semi-Blind Joint Channel and Symbol Estimation for Beyond Diagonal Reconfigurable Surfaces (2512.15441v1)

Abstract: The beyond-diagonal reconfigurable intelligent surface (BD-RIS) is a recent architecture in which scattering elements are interconnected to enhance the degrees of freedom for wave control, yielding performance gains over traditional single-connected RISs. For BD-RIS, channel estimation - well-studied for conventional RIS - becomes more challenging due to the complex connections and a larger number of coefficients. Prior works rely on pilot-assisted estimation followed by data decoding. This paper introduces a semi-blind tensor-based approach for joint channel and symbol estimation that eliminates the need for training sequences by leveraging data symbols directly. A practical scenario with time-varying user terminal-RIS channels under mobility is considered. By reformulating the received signal from a tensor decomposition perspective, we develop two semi-blind receivers: a two-stage method transforming the fourth-order PARATUCK model into a third-order PARAFAC model, and a single-stage iterative process based on fourth-order TUCKER decomposition. Identifiability conditions for reliable joint recovery are derived, and numerical results demonstrate the performance advantages and trade-offs of the proposed schemes over existing solutions.