Research on uplink sum-rate maximization for STAR-RIS assisted batteryless IoT:SDMA versus NOMA
To address the limitations of half-space coverage,low information transmission efficiency of RIS assisted bat-teryless IoT,a STAR-RIS assisted transmission scheme was proposed.Specifically,a STAR-RIS was deployed between the batteryless device(BD)and the access point,facilitating the uplink information transmission from the BD to the access point,thereby achieving full-space network coverage of the BD.To further enhance energy transmission efficiency,energy beamforming was designed at the power station.To this end,the system sum-rate maximization problems for both space di-vision multiple access(SDMA)and non-orthogonal multiple access(NOMA)scenarios were investigated,with jointly opti-mization of the relection coefficients of the BD,the energy beamforming vector at the base station and the coefficient matri-ces of the STAR-RIS.For the SDMA scenario,an iterative algorithm based on the block coordinate descent(BCD)frame-work was proposed to solve the optimization problem.Similarly,to address the non-convexity of the optimization problem in the NOMA scenario,the objective function was transformed to simplify its solution,and another iterative algorithm based on the BCD framework was proposed.Numerical results show the superiorities of the proposed schemes over the benchmark schemes.Moreover,the utilization of the NOMA achieves better performance than the SDMA.
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