The paper analyzes the performance of RIS-assisted noncoherent single-input single-output (SISO) communication systems with one- and two-sided multi-level ASK modulation. Two propagation scenarios are considered: when the direct link between the transmitter and receiver is blocked, and when it is unblocked.
For the blocked direct channel case, the authors propose an optimal noncoherent maximum likelihood (ML) receiver structure and derive a closed-form upper-bound expression for the symbol error probability (SEP). For the unblocked direct channel case, a similar optimal noncoherent ML receiver is designed, and the corresponding SEP upper-bound is obtained.
The paper then presents a novel optimization framework to determine the optimal one- and two-sided ASK modulation schemes that minimize the SEP under average transmit power constraints for both the blocked and unblocked direct channel scenarios.
The numerical results demonstrate that the RIS-aided communication system achieves superior error performance with the proposed optimal one- and two-sided ASK modulation schemes compared to traditional ASK modulation. It is also shown that the two-sided ASK modulation outperforms the one-sided scheme. The error performance is further analyzed for different system parameters, providing a comprehensive investigation of RIS-assisted noncoherent wireless communication systems.
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