Doppler Effect in 2 × 2 to 4 × 4 Mimo Systems of Wireless Communication with Orthogonal Pilot Channel Estimation

Scientific Journal of Polish Naval Academy Pub Date : 2020-12-01 DOI:10.2478/sjpna-2020-0012

V. Romanuke

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Abstract

Abstract The Doppler effect in 2×2, 3×3, 4×4 MIMO wireless communication systems with channel estimation is studied. The orthogonal pilot signal approach is used for the channel estimation, where the Hadamard sequences are used for piloting, along with the eight alternative orthogonal sets similar to the Walsh set. MIMO transmissions are simulated for 10 cases of the frame length and pilot symbols per frame by no Doppler shift to 1100 Hz Doppler shift with a step of 100 Hz. Based on the simulation, it is ascertained that MIMO transmissions of shorter frames are less sensitive to the Doppler effect. Despite increasing the number of antennas does not mitigate the Doppler effect, and the bit-error rate performance of 4×4 MIMO systems worsens faster than that of 2×2 MIMO systems, it is better to use the maximum number of antennas. The Doppler effect does badly worsen the performance at highway and express train speeds (100 km/hr, and faster), leaving only possibility to further shorten transmissions. This, however, decreases the data rate, but the respective accuracy-versus-data-rate tradeoff must be acceptable.

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正交导频信道估计的2×2到4×4 Mimo无线通信系统中的多普勒效应

摘要研究了具有信道估计的2×2，3×3，4×4MIMO无线通信系统中的多普勒效应。正交导频信号方法用于信道估计，其中Hadamard序列用于导频，以及类似于Walsh集的八个备选正交集。通过没有多普勒频移到具有100Hz步长的1100Hz多普勒频移，针对帧长度和每帧导频符号的10种情况模拟MIMO传输。基于仿真，确定了较短帧的MIMO传输对多普勒效应不太敏感。尽管增加天线数量并不能减轻多普勒效应，并且4×4 MIMO系统的误码率性能比2×2 MIMO系统恶化得更快，但最好使用最大数量的天线。多普勒效应确实严重恶化了高速公路和特快列车速度（100公里/小时或更快）下的性能，只留下了进一步缩短传输的可能性。然而，这降低了数据速率，但相应的精度与数据速率的折衷必须是可接受的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Scientific Journal of Polish Naval Academy

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审稿时长

12 weeks