Title :
Bounds on ε-rate for linear, time-invariant, multiinput/multioutput channels
Author :
Hajela, Dan ; Honig, Michael L.
Author_Institution :
Bellcore, Morristown, NJ, USA
fDate :
9/1/1990 12:00:00 AM
Abstract :
Upper and lower bounds on the ε-rate of a linear, time-invariant multiple input multiple output channel are derived by using the same volume argument previously used by W.L. Root (1968) for single input single output channels. Because these bounds are not very tight, an approximation to the ε-rate is presented which lies between the upper and lower bounds, and can be used to compare ε-rates for different channels. The extension considered uses a result due to Lerer (1978) on the eigenvalue distribution of a convolution operator with a matrix kernel (impulse response). The present results are used to assess the increase in data rate attainable by designing input signals which exploit the multidimensional nature of the channel, relative to treating each constituent channel in isolation. Numerical results based upon a simple model for two coupled twisted-pair wires are presented
Keywords :
telecommunication channels; ε-rate; MIMO channel; communication channel; convolution operator; coupled twisted-pair wires; eigenvalue distribution; impulse response; linear channel; lower bounds; matrix kernel; multiple input multiple output channel; time invariant channel; upper bounds; Convolution; Crosstalk; Eigenvalues and eigenfunctions; Kernel; MIMO; Noise level; Signal design; Statistics; Vectors; Wires;
Journal_Title :
Information Theory, IEEE Transactions on
