Title :
Finite sample identifiability of multiple constant modulus sources
Author :
Leshem, Amir ; Petrochilos, Nicolas ; Van der Veen, Alle-Jan
Author_Institution :
Sch. of Eng., Bar-Ilan Univ., Yakum, Israel
Abstract :
We prove that mixtures of continuous alphabet constant modulus sources can be identified with probability 1 with a finite number of samples (under noise-free conditions). This strengthens earlier results which only considered an infinite number of samples. The proof is based on the linearization technique of the analytical constant modulus algorithm (ACMA), together with a simple inductive argument. We then study the finite-alphabet case. In this case, we provide a subexponentially decaying upper bound on the probability of nonidentifiability for a finite number of samples. We show that under practical assumptions, this upper bound is tighter than the currently known bound. We then provide an improved exponentially decaying upper bound for the case of L-PSK signals (L is even).
Keywords :
array signal processing; blind source separation; identification; phase shift keying; probability; signal sampling; L-PSK signals; analytical constant modulus algorithm; blind equalization; blind source separation; continuous alphabet constant modulus sources; exponentially decaying upper bound; finite sample identifiability; inductive argument; linearization technique; multiple constant modulus sources; noise-free conditions; nonidentifiability probability; probability; sensors array; signal samples; subexponentially decaying upper bound; Array signal processing; Binary phase shift keying; Cost function; Linearization techniques; Performance analysis; Phase shift keying; Sensor arrays; Signal processing; Signal processing algorithms; Upper bound;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2003.815791
