Journal ArticleDOI
Impulse response shortening for discrete multitone transceivers
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TLDR
Various methods of determining the coefficients for this time-domain finite impulse response (FIR) filter are explored and an optimal shortening and a least-squares approach are developed for shortening the channel's impulse response.Abstract:
In discrete multitone (DMT) transceivers an intelligent guard time sequence, called a cyclic prefix (CP), is inserted between symbols to ensure that samples from one symbol do not interfere with the samples of another symbol. The length of the CP is determined by the length of the impulse response of the effective physical channel. Using a long CP reduces the throughput of the transceiver, To avoid using a long CP, a short time-domain finite impulse response (FIR) filter is used to shorten the effective channels impulse response. This paper explores various methods of determining the coefficients for this time-domain filter. An optimal shortening and a least-squares (LS) approach are developed for shortening the channel's impulse response. To provide a computationally efficient algorithm a variation of the LS approach is explored. In full-duplex transceivers the length of the effective echo path impacts the computational requirements of the transceiver. A new paradigm of joint shortening is introduced and three methods are developed to jointly shorten the channel and the echo impulse responses in order to reduce the length of the CP and reduce computational requirements for the echo canceller.read more
Citations
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An improved optimization algorithm for time domain equalizer design in ADSL modems
TL;DR: An improved optimization algorithm for the time domain equalizer is developed in case of Frequency Division Multiplexing-based ADSL and explicitly disregards the unused tones in the optimization function as well as in the non-triviality constraint.
Unification and Evaluation of Equalization Structures and Design Algorithms for Discrete
Richard K. Martin,K. Vanbleu,Ming Ding,Geert Ysebaert,Milos Milosevic,Brian L. Evans,Marc Moonen,C. Richard Johnson +7 more
TL;DR: In this paper, a unified treatment of equalizer designs for multicarrier receivers is presented, with an emphasis on discrete multitone systems. But the unification emphasizes the differences between the methods, enabling a comparison of their advantages and disad- vantages.
Journal ArticleDOI
Subsymbol equalization for discrete multitone systems
Jaekwon Kim,Edward J. Powers +1 more
TL;DR: A novel subsymbol-equalization scheme is proposed, based on the observation that the high-bit-rate twisted-pair channels rarely contain a zero that is close to the unit circle, which eliminates the necessity of both the channel shortening at the receiver and the cyclic extension at the transmitter.
Proceedings ArticleDOI
Joint impulse response shortening
Peter J. W. Melsa,R.C. Younce +1 more
TL;DR: A joint shortening approach for determining the coefficients for this time-domain filter to jointly shorten both the channel and echo path impulse responses.
Proceedings ArticleDOI
A blind channel shortening criterion based on high-order cumulants
Huy-Dung Han,Zhi Ding +1 more
TL;DR: This work proposes a new criterion for blind channel shortening based on high order statistical information derived from only second order output statistics of the unknown channel that is applicable to both single-input-single-output and single- input-multiple-output frequency selective channels.
References
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