Design and Performance Analysis of an RIS-Empowered RM-DCSK System for Wireless Powered Communication
Fang Liu, Junjun Ma, Qihao Yu

TL;DR
This paper introduces a new wireless communication system using reconfigurable intelligent surfaces and a modified chaos-based signaling method to improve performance and efficiency.
Contribution
The novel system combines RIS and RM-DCSK to enhance spectral efficiency and reduce receiver complexity in wireless powered communication.
Findings
The proposed system achieves better bit error rate performance compared to existing RIS-aided and bufferless systems.
Using RIS improves the propagation environment and reduces path loss effects in wireless powered communication.
A threshold-based transmission policy enables sustainable uplink transmission with energy harvesting.
Abstract
This paper proposed a reconfigurable intelligent surface (RIS)-empowered reference-modulated differential chaos shift keying (RM-DCSK) wireless powered communication (WPC) system. As a noncoherent chaotic communication scheme, the proposed system exploits the reference reuse property of RM-DCSK, where the reference signal simultaneously carries data information, thereby improving spectral efficiency while maintaining noncoherent and channel-estimation-free reception with low receiver circuit complexity. Furthermore, RIS is utilized to reconfigure the propagation environment and mitigate the path loss effect of WPC links. At the user equipment (UE), a harvest–store–use (HSU) energy harvesting and finite-buffer model is developed, and a threshold-based on/off transmission policy is adopted to enable sustainable uplink transmission. To quantify the gain of energy buffering and management,…
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Taxonomy
TopicsAdvanced Wireless Communication Technologies · Energy Harvesting in Wireless Networks · Underwater Vehicles and Communication Systems
