6G 网络中的联合雷达传感、定位和通信资源优化

Haijun Zhang;Bowen Chen;Xiangnan Liu;Chao Ren
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引用次数: 0

摘要

由于存在通信和传感频谱共享,因此可以共同优化位置传感和通信资源,从而将系统性能提升到更高水平。然而,用户设备(UE)的快速移动会导致位置估计不准确,从而严重降低系统性能。因此,研究了频谱共享第六代网络中 UE 的精确位置感知和资源分配问题。提出了一种基于 UE 位置感知的联合子载波和功率优化方法,旨在最大限度地降低系统能耗。联合分配过程分为两个关键操作阶段。在雷达位置感知阶段,同时考虑多径干扰和多普勒效应,将 UE 位置和信道状态估计问题转化为凸优化问题,然后通过梯度下降法求解。在通信阶段,提出了一种基于子载波权重的子载波分配方法。为进一步降低系统能耗,引入了子载波和功率联合分配方法,通过拉格朗日乘法解决非凸资源分配问题。仿真分析结果表明,与基准算法相比,位置传感算法的精度有了显著提高。同时,与基准方案相比,所提出的资源分配方案在性能上也有大幅提升。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Joint Radar Sensing, Location, and Communication Resources Optimization in 6G Network
The possibility of jointly optimizing location sensing and communication resources, facilitated by the existence of communication and sensing spectrum sharing, is what promotes the system performance to a higher level. However, the rapid mobility of user equipment (UE) can result in inaccurate location estimation, which can severely degrade system performance. Therefore, the precise UE location sensing and resource allocation issues are investigated in a spectrum sharing sixth generation network. An approach is proposed for joint subcarrier and power optimization based on UE location sensing, aiming to minimize system energy consumption. The joint allocation process is separated into two key phases of operation. In the radar location sensing phase, the multipath interference and Doppler effects are considered simultaneously, and the issues of UE’s location and channel state estimation are transformed into a convex optimization problem, which is then solved through gradient descent. In the communication phase, a subcarrier allocation method based on subcarrier weights is proposed. To further minimize system energy consumption, a joint subcarrier and power allocation method is introduced, resolved via the Lagrange multiplier method for the non-convex resource allocation problem. Simulation analysis results indicate that the location sensing algorithm exhibits a prominent improvement in accuracy compared to benchmark algorithms. Simultaneously, the proposed resource allocation scheme also demonstrates a substantial enhancement in performance relative to baseline schemes.
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