脉冲噪声和移动衰落信道下的空时并行对消交织OFDM系统

H. Yeh, Jun Zhou
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引用次数: 1

摘要

在现代空间和通信系统中,期望在脉冲噪声和移动衰落信道中具有较低的误码率。IN存在于各种传输系统中,例如地面数字视频广播(DVB-T)、数字音频广播(DAB)、非对称数字用户线路(ADSL)和第五代(5G)网络。本文提出了一种与交织正交频分复用(IOFDM)系统相结合的2x2空时并行对消(STPC)传输方案,以缓解输入信道和移动信道的衰落效应。STPC OFDM系统采用双路传输架构,以减轻移动衰落信道中的载波间干扰。IOFDM中的交错处理用于提高双径STPC OFDM块内的混合时频分集。因此,由于STPC在移动衰落信道中的鲁棒性,STPC- iofdm系统具有出色的ICI缓解特性,而交错过程引入了时频域分集,进一步有效地对抗in和频率选择性衰落信道。仿真结果表明,该STPC-IOFDM系统在多种频率选择环境下具有良好的抗干扰能力。它的误码率性能优于ST-OFDM, ST-IOFDM和STPC-OFDM系统在in和COST207典型城市或坏城市移动衰落信道。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Space-Time Parallel Cancellation Interleaved OFDM Systems in Impulsive Noise and Mobile Fading Channels
In modern space and communication systems, it is desirable to have a low bit error rate (BER) in impulse noise (IN) and mobile fading channels. IN exists in varied transmission systems, such as digital video broadcasting-terrestrial (DVB-T), digital audio broadcasting (DAB), asymmetric digital subscriber line (ADSL), and the fifth generation (5G) networks. A 2x2 space-time parallel cancellation (STPC) transmission scheme joint with interleaved orthogonal frequency division multiplexing (IOFDM) system is presented in this paper to mitigate IN and mobile fading channel effects. The STPC OFDM system employs an architecture with two-path transmission to mitigate inter-carrier interference (ICI) in mobile fading channels. The interleaving process in IOFDM is employed for increasing mixed time and frequency domain diversity within the two-path STPC OFDM block. Hence, the STPC-IOFDM system characterizes the excellent mitigation of ICI due to the robustness of STPC in mobile fading channels while the interleaving process introduces time and frequency domain diversity to further effectively combat IN and frequency selective fading channels. It is demonstrated via simulations that the proposed STPC-IOFDM system is vigorous to numerous frequency selective environments with or without IN. Its BER performance outperforms ST-OFDM, ST-IOFDM, and STPC-OFDM systems in both IN and COST207 typical urban or bad urban mobile fading channels.
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