Title :
An information theory description of EM fields in complex environments
Author :
Corona, Paolo ; Cuomo, Daniele ; Pinto, Innocenzo M.
Author_Institution :
University of Naples, Naples, Italy; Institute of Theory and Technology of Electromagnetic waves, the University of Navale, 38 Navale, Italy
Abstract :
Distinguishable EM-field intensity patterns in a bounded observation domain can be set into a one to one correspondance with finite-length code-words built from a discrete finite alphabet. Conservative upper bounds on wordlength and alphabet-size can be derived from the gross features of the problem´s geometry and sources. Field intensity pattern probabilities, and their Shannon set-entropy can be estimated from a statistical description of the (true and equivalent) sources.
Keywords :
Corona; Educational institutions; Entropy; Geometry; Uncertainty; Upper bound;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.1987.6312602
