Patent
Adaptive frequency domain equalizer and adaptive frequency domain equalization method
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TLDR
An adaptive frequency domain equalizer and an adaptive frequencydomain equalization method are provided to minimize an EMSE by adopting a high-stable root square algorithm.Abstract:
An adaptive frequency domain equalizer and an adaptive frequency domain equalization method are provided to minimize an EMSE(Excess Mean Square Error) by adopting a high-stable root square algorithm. A first DFT(Discrete Fourier Transform)(204) converts a received signal into a frequency domain. A pseudo-time space code matrix generator(208) generates a pseudo-time space code matrix from two successively received signal blocks from the first DFT. An input block matrix generator(210) generates an equalizer input block matrix based on the pseudo-time space code matrix. A channel equalizer(212) performs a channel equalization on the equalizer input block matrix according to an equalizer coefficient. An IDFT(Inverse Discrete Fourier Transform)(214) converts the channel-equalized signal into a time domain. A determining unit(216) generates a determination signal by estimating a transmission signal from the time domain signal. A second DFT(218) converts the determination signal into the frequency domain. An error calculator calculates an error from the determination signal. A compensator(222) compensates for the equalizer coefficient by using the error and the equalizer input block matrix.read more
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Journal ArticleDOI
Frequency domain equalization for single-carrier broadband wireless systems
TL;DR: This article surveys frequency domain equalization (FDE) applied to single-carrier (SC) modulation solutions and discusses similarities and differences of SC and OFDM systems and coexistence possibilities, and presents examples of SC-FDE performance capabilities.
Journal ArticleDOI
Single-carrier frequency-domain equalization for space-time block-coded transmissions over frequency-selective fading channels
TL;DR: An Alamouti-like scheme for combining space-time block-coding with single-carrier frequency-domain equalization with significant diversity gains at low complexity over frequency-selective fading channels is proposed.
Journal ArticleDOI
Cyclic prefixed single carrier transmission with SFBC over mobile wireless channels
TL;DR: It is shown that the proposed system significantly outperforms the space-time block-coded SC-FDE system over fast-fading channels while providing lower computational complexity than orthogonal frequency division multiplexing combined with the SFBC.