Title :
Marginal Likelihood for Estimation and Detection Theory
Author :
Noam, Yair ; Tabrikian, Joseph
Author_Institution :
Ben-Gurion Univ. of Negev, Beer-Sheva
Abstract :
This paper derives and analyzes the asymptotic performances of the maximum-likelihood (ML) estimator and the generalized likelihood ratio test (GLRT) derived under the assumption of independent identically distribution (i.i.d.) samples, where in the actual model the signal samples are m-dependent. The ML and GLRT under such a modeling mismatch are based on the marginal likelihood function, and they are referred to as marginal maximum likelihood (MML) and "generalized (sum) marginal log-likelihood ratio test" (GMLRT), respectively. Under some regularity conditions, the asymptotical distributions of the MML and GMLRT are derived. The asymptotical distributions in some signal processing examples are analyzed. Simulation results support the theory via several examples.
Keywords :
maximum likelihood estimation; modelling; sampling methods; signal processing; asymptotical distribution; detection theory; estimation theory; generalized likelihood ratio test; generalized marginal log-likelihood ratio test; independent identically distribution sample; marginal likelihood function; marginal maximum likelihood; modeling mismatch; regularity condition; signal processing analysis; signal sample; Estimation theory; Low pass filters; Maximum likelihood detection; Maximum likelihood estimation; Performance evaluation; Sampling methods; Signal analysis; Signal processing; Signal sampling; Testing; $m$-dependent; Asymptotic properties; consistency; detection; estimation; generalized (sum) marginal log-likelihood ratio test (GMLRT); marginal likelihood; marginal maximum likelihood (MML);
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2007.894411
