This paper considers the downlink of an ultra-reliable low-latency communication (URLLC) system in which a base station (BS) serves multiple single-antenna users in the short (finite) blocklength (FBL) regime with the assistance of a reconfigurable intelligent surface (RIS). In the FBL regime, the users' achievable rates are complex functions of the beamforming vectors and of the RIS's programmable reflecting elements (PREs). We propose the joint design of the transmit beamformers and PREs, the problem of maximizing the geometric mean (GM) of these rates (GM-rate) and show that this aforementioned results are providing fair rate distribution and thus reliable links to all users. A novel computational algorithm is developed, which is based on closed forms to generate improved feasible points, using its execution. The simulations show the merit of our solution.
翻译:本文件审议了超可靠的低长通信系统(URLLC)的下链接,在该系统中,一个基地台站在可重新配置的智能表面(RIS)的协助下,以短(无限)整长(FBL)系统为多个单层用户提供服务。在FBL系统中,用户可实现的速率是波形矢量和可编程反映元素(PREs)的复杂功能。我们提议联合设计传送光源和PREs,这是尽量扩大这些速率的几何平均值(GM-rate)的问题,并表明上述结果为所有用户提供了公平的费率分布,从而提供了可靠的链接。正在开发一种新型的计算算法,它以封闭的形式为基础,用其执行来产生更好的可行点。模拟显示了我们解决方案的优点。
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