核心概念
Efficient channel estimation and beamforming design for Beyond Diagonal Reconfigurable Intelligent Surfaces.
要約
The article discusses channel estimation and beamforming design for Beyond Diagonal Reconfigurable Intelligent Surfaces (BD-RIS). It introduces BD-RIS as a new technique that enhances wave manipulation and coverage. The study focuses on channel estimation using the least square method, formulating the joint pilot sequence and BD-RIS design problem. Efficient pilot sequence and BD-RIS design are proposed to minimize mean square error. Beamforming design algorithms for two BD-RIS scenarios are considered, showing improved performance with more inter-element connections. The article provides simulation results validating the proposed schemes' effectiveness and the trade-off between performance and training overhead.
The content is structured as follows:
- Introduction to BD-RIS
- Channel Estimation Strategies
- Tile-Based Channel Construction
- Transmission Protocol
- Multi-User Scenarios
- BD-RIS with Hybrid/Multi-Sector Modes
- Beamforming Design for Reflective BD-RIS Aided Point-to-Point MIMO
統計
"The training overhead can be effectively reduced by introducing tiles (increasing tile size ¯ G), although the larger ¯ M decreases the number of possible ¯ G."
"The estimation MSE increases with ¯ M."
"The circuit complexity increases with ¯ M."
引用
"The proposed channel estimation scheme can be easily generalized to multi-user cases by assuming all users transmit orthogonal pilot sequences."
"The proposed channel estimation scheme is based on BD-RIS with reflective mode."
"The proposed channel estimation scheme can be easily generalized to multi-user cases by assuming all users transmit orthogonal pilot sequences."