Title :
Approximating discrete probability distributions with decomposable models
Author :
Malvestuto, Francesco M.
Author_Institution :
ENEA, Rome, Italy
Abstract :
A heuristic procedure is presented for approximating an n-dimensional discrete probability distribution with a decomposable model of a given complexity. It is shown that, without loss of generality, the search space can be restricted to a suitable subclass of decomposable models, whose members are called elementary models. The selected elementary model is constructed in an incremental manner according to a local-optimality criterion that consists of minimizing a suitable cost function. It is shown by an example that the solution computed by the procedure is sometimes optimal
Keywords :
approximation theory; computational complexity; optimisation; probability; set theory; statistical analysis; computational complexity; decomposable models; discrete probability distribution approximation; elementary models; heuristic; local-optimality criterion; optimisation; search space; set theory; Artificial intelligence; Cost function; Cybernetics; Feature extraction; Information systems; Pattern recognition; Probability distribution; Random variables; Stochastic processes; Stress;
Journal_Title :
Systems, Man and Cybernetics, IEEE Transactions on
