This paper investigates a movable antenna (MA)-enabled wireless-powered communication network (WPCN), where multiple wireless devices (WDs) first harvest energy from the downlink (DL) signal broadcast by a hybrid access point (HAP) and then transmit information in the uplink (UL) using non-orthogonal multiple access (NOMA). Unlike conventional WPCNs with fixed-position antennas (FPAs), this MA-enabled WPCN allows the MAs at the HAP and the WDs to adjust their positions twice: once before DL wireless power transfer and once before DL wireless information transmission.
The key highlights and insights are:
The authors prove that using identical MA positions for both DL and UL is the optimal strategy in both continuous and discrete positioning designs, thereby greatly simplifying the problems and enabling easier practical implementation of the system.
For the continuous positioning design, the authors propose an alternating optimization-based algorithm to obtain suboptimal solutions, where each position variable is not explicitly exposed in the objective function but can be efficiently solved using the successive convex approximation technique.
For the discrete positioning design, the authors apply the alternating optimization method and leverage the special structure of the subproblems to streamline the exhaustive search process for the binary position variables, significantly reducing the computational complexity.
Simulation results show that the proposed continuous MA scheme can enhance the sum throughput by up to 395.71% compared to the benchmark with FPAs, even when additional compensation transmission time is provided to the latter. Moreover, a step size of one-quarter wavelength for the MA motion driver is generally sufficient for the proposed discrete MA scheme to achieve over 80% of the sum throughput performance of the continuous MA scheme.
When each moving region is large enough to include multiple optimal positions for the continuous MA scheme, the discrete MA scheme can achieve comparable sum throughput without requiring an excessively small step size.
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