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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Proceedings ArticleDOI
Efficient blind adaptive channel shortening algorithm for multicarrier modulation systems
TL;DR: This paper presents a low complexity, fast convergence new algorithm for updating the coefficients of time domain equalizer (TEQ) to shorten the effective channel and exploits the presence of the FFT property, the orthogonality between adjacent subcarrier, in multicarrier modulation systems.
Proceedings ArticleDOI
Maximum shortening SNR design for MIMO channels
TL;DR: A MSSNR channel shortening method for MIMO channels is proposed, which extends the M SSNR method from SISO to MIMo case and the efficiency of the proposed approach compared to the MMSE method based on measured channels is demonstrated.
Journal ArticleDOI
Bit-error-rate-minimizing channel shortening using post-FEQ diversity combining and a genetic algorithm
Gokhan Altin,Richard K. Martin +1 more
TL;DR: A channel shortener and frequency domain equalizer are developed for cyclic prefixed systems, which directly attempt to minimize the bit error rate.
Proceedings ArticleDOI
A Shortened Impulse Response Filter (SIRF) Scheme for Cost-Effective Echo Canceller Design of 10GBase-T Ethernet System
TL;DR: A shortened impulse response filter (SIRF) is used to shorten the echo impulse response to reduce the echo canceller cost and two new low cost 10GBase-T transceiver architectures are proposed.
Proceedings ArticleDOI
Cochannel interference cancellation using optimized joint equalization
TL;DR: A combined scheme of JRSSE and the M-algorithm for joint detection of the desired user signal and one or more interferers, which corresponds to a special application of breadth-first sequence detection is considered.
References
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A discrete multitone transceiver system for HDSL applications
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J.S. Chow,John M. Cioffi +1 more
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