Performance bounds and optimal linear coding for discrete-time multichannel communication systems
Abstract
The design and evaluation of real-time implementable coding schemes for Gaussian multisource-multichannel communication systems are considered. The problem is to transmit the output from an n-dimensional Gaussian source over a memoryless m-dimensional Gaussian channel with power constraint and a mean-squared error distortion measure. Shannon performance bounds are obtained for this system through the optimum performance theoretically attainable (OPTA) relationship between the source distortion level beta and the channel input power level alpha. The optimum encoder is determined within the class of linear memoryless transformations, in which case the optimum decoder transformation becomes a least-mean-square estimator. The optimum linear encoder-decoder pair either coincides with or is very close to the Shannon bound in a number of significant cases.
- Publication:
-
IEEE Transactions on Information Theory
- Pub Date:
- March 1980
- Bibcode:
- 1980ITIT...26..212B
- Keywords:
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- Communication Equipment;
- Multichannel Communication;
- Signal Encoding;
- Stochastic Processes;
- Systems Engineering;
- Transmission Efficiency;
- Communication Theory;
- Estimating;
- Extremum Values;
- Least Squares Method;
- Linear Transformations;
- Optimization;
- Performance Prediction;
- Real Time Operation;
- Signal Processing;
- Communications and Radar