1. Parallel Channel Estimator and Equalizer for Mobile OFDM Systems.
- Author
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Guan, Yongfeng, Xu, Tao, Leuken, Rene, and Qian, Manyi
- Subjects
EQUALIZERS (Electronics) ,ORTHOGONAL frequency division multiplexing ,RADIO transmitter-receivers ,TIME-varying channels ,LEAST squares ,HARDWARE - Abstract
Mobile OFDM refers to OFDM systems with fast moving transceivers, in contrast to traditional OFDM systems whose transceivers are stationary or have a low velocity. In this paper, we use the basis expansion model (BEM) to model time-varying OFDM channels. Using different BEM's, we investigate various architectures to implement the least-squares (LS) channel estimation and its corresponding zero-forcing (ZF) channel equalization. The experimental results show that our implementation for mobile OFDM systems is capable of combatting the time variation of mobile OFDM channels, and more hardware resource utilization is necessary compared with a traditional OFDM design which fails in a time-varying scenario. For mobile OFDM systems, different BEM's are available for the channel modeling. We observe that the so-called Critically sampled Complex-Exponential BEM (CCE-BEM) leads to the most efficient hardware architecture while still maintaining high modeling accuracy. [ABSTRACT FROM AUTHOR]
- Published
- 2014
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