Resource Allocation for Multi-IoT-Node Mutualistic Symbiotic Radio With Hybrid Long and Short Packets

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Resource Allocation for Multi-IoT-Node Mutualistic Symbiotic Radio With Hybrid Long and Short Packets
Title:
Resource Allocation for Multi-IoT-Node Mutualistic Symbiotic Radio With Hybrid Long and Short Packets
Journal Title:
IEEE Transactions on Wireless Communications
Publication Date:
05 August 2025
Citation:
Shi, L., Ye, Y., Chu, X., Lu, G., & Sun, S. (2025). Resource Allocation for Multi-IoT-Node Mutualistic Symbiotic Radio With Hybrid Long and Short Packets. IEEE Transactions on Wireless Communications, 25, 1842–1856. https://doi.org/10.1109/twc.2025.3593290
Abstract:
Mutualistic symbiotic radio (MSR) that allows a primary link and a backscatter link to share resources and benefit each other has been investigated mainly for long-packet communications. In the Internet of Things (IoT), where short packets are often transmitted, the design of MSR needs to consider the distinct features of short packet transmissions. In this work, we study a multi-IoT-node MSR network supporting both long and short packet transmissions, where a primary transmitter sends long packets to a cooperative receiver (CR), while multiple IoT nodes sequentially backscatter their short packets to the CR. We first derive the lower bound expression for the primary transmission rate by considering the error probabilities (EPs) of the IoT nodes’ short-packet communications. On this basis, we propose a resource allocation scheme to maximize the weighted sum throughput of all IoT nodes, subject to the constraints on the quality-of-service requirement and energy causality for each IoT node, as well as the throughput gain for the primary transmission. Specifically, the weighted sum throughput maximization problem is formulated by jointly optimizing the short-packet blocklength, power reflection coefficient and EP of each IoT node, and is solved by proposing an iterative algorithm based on the block coordinate decent method. Simulation results confirm the quick convergence of the proposed iterative algorithm and show that our proposed scheme outperforms the existing scheme in terms of the weighted sum throughput of all IoT nodes.
License type:
Publisher Copyright
Funding Info:
This research is supported by core funding from: A*STAR Institute for Infocomm Research (A*STAR I²R)
Grant Reference no. : NA
Description:
© 2025 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.
ISSN:
1536-1276
1558-2248
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