Chuangming Zheng , Jiayang Ban , Liqin Shi , Yinghui Ye
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引用次数: 0
Abstract
In this paper, we investigate a cognitive radio (CR) inspired rate splitting multiple access (RSMA) aided mobile edge computing (MEC) network, where hardware impairments (HIs) in all transceivers are considered. Given that allowing the secondary user (SU) to share the resource with the primary user (PU) for data offloading does not degrade the PU’s offloading performance, we derive closed-form expressions for the rate-splitting parameter and power allocation coefficient at the SU to maximize its offloading rate. Using the derived parameters, we then derive the successful computation probability (SCP), which is defined as the probability that both the PU and SU can successfully compute their task bits within a given latency budget, into the closed form. To further enhance the performance of the CR inspired RSMA-MEC network with HIs, a SCP maximization-based problem is formulated to jointly optimize the task offloading ratio and task offloading time of both the SU and PU. Leveraging the convex theory, we obtain the optimal solutions in the closed form. Simulation results confirm the following two insights. First, the presence of HIs leads to a decreasing on the SCP and the SCP approaches to a constant which is less than 1 with the increase of the transmit power. Second, with the optimal task offloading ratio and time, the CR inspired RSMA-MEC achieves the highest SCP compared to the existing schemes.
本文研究了一种受认知无线电(CR)启发的速率分裂多重接入(RSMA)辅助移动边缘计算(MEC)网络,其中考虑了所有收发器的硬件损伤(HI)。考虑到允许次要用户(SU)与主要用户(PU)共享资源进行数据卸载不会降低 PU 的卸载性能,我们推导出了速率分割参数和 SU 功率分配系数的闭式表达式,以最大化其卸载速率。利用推导出的参数,我们得出了成功计算概率 (SCP),即 PU 和 SU 在给定延迟预算内成功计算其任务比特的概率。为了进一步提高具有 HI 的 CR 启发 RSMA-MEC 网络的性能,我们提出了一个基于 SCP 最大化的问题,以共同优化 SU 和 PU 的任务卸载率和任务卸载时间。利用凸理论,我们得到了闭合形式的最优解。仿真结果证实了以下两个观点。首先,HI 的存在导致 SCP 下降,并且随着发射功率的增加,SCP 接近于小于 1 的常数。其次,与现有方案相比,在最佳任务卸载率和时间下,受 CR 启发的 RSMA-MEC 实现了最高的 SCP。
期刊介绍:
PHYCOM: Physical Communication is an international and archival journal providing complete coverage of all topics of interest to those involved in all aspects of physical layer communications. Theoretical research contributions presenting new techniques, concepts or analyses, applied contributions reporting on experiences and experiments, and tutorials are published.
Topics of interest include but are not limited to:
Physical layer issues of Wireless Local Area Networks, WiMAX, Wireless Mesh Networks, Sensor and Ad Hoc Networks, PCS Systems; Radio access protocols and algorithms for the physical layer; Spread Spectrum Communications; Channel Modeling; Detection and Estimation; Modulation and Coding; Multiplexing and Carrier Techniques; Broadband Wireless Communications; Wireless Personal Communications; Multi-user Detection; Signal Separation and Interference rejection: Multimedia Communications over Wireless; DSP Applications to Wireless Systems; Experimental and Prototype Results; Multiple Access Techniques; Space-time Processing; Synchronization Techniques; Error Control Techniques; Cryptography; Software Radios; Tracking; Resource Allocation and Inference Management; Multi-rate and Multi-carrier Communications; Cross layer Design and Optimization; Propagation and Channel Characterization; OFDM Systems; MIMO Systems; Ultra-Wideband Communications; Cognitive Radio System Architectures; Platforms and Hardware Implementations for the Support of Cognitive, Radio Systems; Cognitive Radio Resource Management and Dynamic Spectrum Sharing.
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