In wireless systems aided by reconfigurable intelligent surfaces (RISs), channel state information plays a pivotal role in achieving the performance gain of RISs. Mobility renders accurate channel estimation (CE) more challenging due to the Doppler effect. In this letter, we propose two practical wideband CE schemes incorporating Doppler shift adjustment (DSA) for multi-path and single-path propagation environments, respectively, for RIS-assisted communication with passive reflecting elements. For the multi-path scenario, ordinary CE is first executed assuming quasi-static channels, followed by DSA realized via joint RIS reflection pattern selection and transformations between frequency and time domains. The proposed CE necessitates only one more symbol incurring negligible extra overhead compared with the number of symbols required for the original CE. For the single-path case which is especially applicable to millimeter-wave and terahertz systems, a novel low-complexity CE method is devised capitalizing on the form of the array factors at the RIS. Simulation results demonstrate that the proposed algorithms yield high CE accuracy and achievable rate with low complexity, and outperform representative benchmark schemes.
翻译:在通过可重新配置智能表面(RIS)协助的无线系统中,频道状态信息在实现RIS的性能收益方面发挥着关键作用。由于多普勒效应,移动使得准确的频道估计(CE)更具挑战性。在本信中,我们提议了两种实用的宽频CE计划,分别包括多光谱和单向传播环境的多普勒转换调整(DSA),用于具有被动反射元素的RIS辅助通信。在多光谱假设中,普通CE首先假定准静态频道,随后是DSA,通过联合的RIS反射模式选择和频率和时间域间变换实现DSA。拟议的CE只需要再增加一个符号,与原CE所需的符号数量相比,产生微不足道的额外间接费用。对于单向情况(特别适用于毫米波和梯赫兹系统),正在设计一种新型的低兼容度CEE方法,在RIS的阵列因素的形式上资本化。模拟结果显示,拟议的算法产生高的CE准确性和可实现率,并具有低复杂性,而且超越代表性基准计划。