An optimum linear receiver for multiple channel digital transmission systems

Wim van Etten

An optimum linear receiver for multiple channel digital transmission systems

Wim van Etten

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

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Abstract

An optimum linear receiver for multiple channel digital transmission systems is developed for the minimum P. and for the zero-forcing criterion. A multidimensional Nyquist criterion is defined together with a theorem on the optimality of a finite length multiple tapped delay line. Furthermore an algorithm is given to calculate the tap settings of this multiple tapped delay line. This algorithm simplifies in those cases where the noise is so small that it can be neglected. Finally as an example the transmission of binary data over the cable, consisting of four identical wires, symmetrically situated inside a cylindrical shield, is considered.

Original language	Undefined
Title of host publication	The Best of the Best
Place of Publication	New York, USA
Publisher	Wiley
Pages	313-319
Number of pages	7
ISBN (Print)	0-470-11268-9
Publication status	Published - 2007

Publication series

Name
Publisher	John Wiley & Sons Inc. Publication

Keywords

EWI-9911
IR-64042
METIS-245716

Access to Document

http://eprints.eemcs.utwente.nl/secure2/9911/01/The_best_of_the_best_313-319.pdf

Cite this

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AB - An optimum linear receiver for multiple channel digital transmission systems is developed for the minimum P. and for the zero-forcing criterion. A multidimensional Nyquist criterion is defined together with a theorem on the optimality of a finite length multiple tapped delay line. Furthermore an algorithm is given to calculate the tap settings of this multiple tapped delay line. This algorithm simplifies in those cases where the noise is so small that it can be neglected. Finally as an example the transmission of binary data over the cable, consisting of four identical wires, symmetrically situated inside a cylindrical shield, is considered.

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KW - METIS-245716

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