Title :
Improved linear prediction through optimal signal discretization
Author_Institution :
Dept. of Comput. & Appl. Math., Univ. of the Witwatersrand, Johannesburg, South Africa
Abstract :
We consider the problem of predicting a target signal {y},as a linear combination of a set of explanatory signals {xi}. In order to reduce the prediction error, we determine an optimal number of thresholds and their values for each signal {xi} by maximising the correlation between the thresholded explanatory signals and the target signal {y}. We extend this pairwise quantization technique to a true multivariate thresholder in the case that {y} and {x i} are positive additive signals by minimising the difference between the entropy of the average of the signals and the average of the entropies of the signals. To illustrate the improvement in prediction using thresholded signals, we consider the problem of predicting the viscosity of rock slurry from reflectance spectra
Keywords :
correlation methods; entropy; geology; geophysical fluid dynamics; geophysical signal processing; optimisation; prediction theory; quantisation (signal); rocks; viscosity measurement; average; correlation; entropy; explanatory signals; geology; linear prediction; multivariate thresholder; optical property; optimal signal discretization; pairwise quantization technique; positive additive signals; prediction error reduction; reflectance spectra; rock slurry viscosity; target signal prediction; thresholded explanatory signals; Dynamic range; Entropy; Exchange rates; Mathematics; Petroleum; Quantization; Reflectivity; Signal processing; Slurries; Viscosity;
Conference_Titel :
Communications and Signal Processing, 1994. COMSIG-94., Proceedings of the 1994 IEEE South African Symposium on
Conference_Location :
Stellenbosch
Print_ISBN :
0-7803-1998-2
DOI :
10.1109/COMSIG.1994.512446
