Title :
Approximation of Nonnegative Systems by Finite Impulse Response Convolutions
Author :
Finesso, Lorenzo ; Spreij, Peter
Author_Institution :
Inst. of Electron., Comput. & Telecommun. Eng., Padua, Italy
Abstract :
We pose the deterministic, nonparametric, approximation problem for scalar nonnegative input/output systems via finite impulse response convolutions, based on repeated observations of input/output signal pairs. The problem is converted into a nonnegative matrix factorization with special structure for which we useCsiszár´s I-divergenceas the criterion of optimality. Conditions are given, on the input/output data, that guarantee the existence and uniqueness of the minimum. We propose an algorithm of the alternating minimization type for I-divergence minimization, and study its asymptotic behavior. For the case of noisy observations, we give the large sample properties of the statistical version of the minimization problem. Numerical experiments confirm the asymptotic results and exhibit the fast convergence of the proposed algorithm.
Keywords :
approximation theory; convergence of numerical methods; convolution; matrix decomposition; minimisation; Csiszár I-divergence minimization; approximation problem; deterministic problem; finite impulse response convolutions; input-output signal pairs; noisy observations; nonnegative matrix factorization; nonnegative systems; nonparametric problem; optimality criterion; scalar nonnegative input-output systems; Algorithm design and analysis; Approximation algorithms; Approximation methods; Mathematical model; Minimization; Radio frequency; Yttrium; FIR approximation; I-divergence; Positive systems; alternating minimization;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2015.2443786
