Super-efficiency in blind signal separation of symmetric heavy-tailed sources

Yoav Shereshevski; Arie Yeredor; Hagit Messer

Super-efficiency in blind signal separation of symmetric heavy-tailed sources

Yoav Shereshevski
, Arie Yeredor
, Hagit Messer

פרסום מחקרי: תוצר מחקר מכנס › הרצאה › ביקורת עמיתים

תקציר

This paper addresses the Blind Source Separation (BSS) problem in the context of "heavy-tailed", or "impulsive" source signals, characterized by the nonexistence of finite second (or higher) order moments. We consider Pham's Quasi-Maximum Likelihood (QML) approach, a modification of the Maximum Likelihood (ML) approach, applied using some presumed distributions of the sources. We introduce a related family of suboptimal estimators, termed Restricted QML (RQML). A theoretical analysis of the asymptotic performance of RQML is presented. The analysis is used for showing that the variance of the optimal (non-RQML) estimator's error must decrease at a rate faster than 1/T (where T is the number of independent observations). This surprising property, sometimes called super-efficiency, has been observed before (in the BSS context) only for finite-support source distributions. Simulation results illustrate the good agreement with theory.

שפה מקורית	אנגלית
עמודים	78-81
מספר עמודים	4
סטטוס פרסום	פורסם - 2001
פורסם באופן חיצוני	כן
אירוע	2001 IEEE Workshop on Statitical Signal Processing Proceedings - Singapore, סינגפור משך הזמן: 6 אוג׳ 2001 → 8 אוג׳ 2001

כנס

כנס	2001 IEEE Workshop on Statitical Signal Processing Proceedings
מדינה/אזור	סינגפור
עיר	Singapore
תקופה	6/08/01 → 8/08/01

קבצים וקישורים אחרים

Link to publication in Scopus

פורמט ציטוט ביבליוגרפי

@conference{02bd9b0d38d84744a532cbe0d0b02995,

title = "Super-efficiency in blind signal separation of symmetric heavy-tailed sources",

abstract = "This paper addresses the Blind Source Separation (BSS) problem in the context of {"}heavy-tailed{"}, or {"}impulsive{"} source signals, characterized by the nonexistence of finite second (or higher) order moments. We consider Pham's Quasi-Maximum Likelihood (QML) approach, a modification of the Maximum Likelihood (ML) approach, applied using some presumed distributions of the sources. We introduce a related family of suboptimal estimators, termed Restricted QML (RQML). A theoretical analysis of the asymptotic performance of RQML is presented. The analysis is used for showing that the variance of the optimal (non-RQML) estimator's error must decrease at a rate faster than 1/T (where T is the number of independent observations). This surprising property, sometimes called super-efficiency, has been observed before (in the BSS context) only for finite-support source distributions. Simulation results illustrate the good agreement with theory.",

author = "Yoav Shereshevski and Arie Yeredor and Hagit Messer",

year = "2001",

language = "אנגלית",

pages = "78--81",

note = "2001 IEEE Workshop on Statitical Signal Processing Proceedings ; Conference date: 06-08-2001 Through 08-08-2001",

}

TY - CONF

T1 - Super-efficiency in blind signal separation of symmetric heavy-tailed sources

AU - Shereshevski, Yoav

AU - Yeredor, Arie

AU - Messer, Hagit

PY - 2001

Y1 - 2001

N2 - This paper addresses the Blind Source Separation (BSS) problem in the context of "heavy-tailed", or "impulsive" source signals, characterized by the nonexistence of finite second (or higher) order moments. We consider Pham's Quasi-Maximum Likelihood (QML) approach, a modification of the Maximum Likelihood (ML) approach, applied using some presumed distributions of the sources. We introduce a related family of suboptimal estimators, termed Restricted QML (RQML). A theoretical analysis of the asymptotic performance of RQML is presented. The analysis is used for showing that the variance of the optimal (non-RQML) estimator's error must decrease at a rate faster than 1/T (where T is the number of independent observations). This surprising property, sometimes called super-efficiency, has been observed before (in the BSS context) only for finite-support source distributions. Simulation results illustrate the good agreement with theory.

AB - This paper addresses the Blind Source Separation (BSS) problem in the context of "heavy-tailed", or "impulsive" source signals, characterized by the nonexistence of finite second (or higher) order moments. We consider Pham's Quasi-Maximum Likelihood (QML) approach, a modification of the Maximum Likelihood (ML) approach, applied using some presumed distributions of the sources. We introduce a related family of suboptimal estimators, termed Restricted QML (RQML). A theoretical analysis of the asymptotic performance of RQML is presented. The analysis is used for showing that the variance of the optimal (non-RQML) estimator's error must decrease at a rate faster than 1/T (where T is the number of independent observations). This surprising property, sometimes called super-efficiency, has been observed before (in the BSS context) only for finite-support source distributions. Simulation results illustrate the good agreement with theory.

UR - https://www.scopus.com/pages/publications/0035555560

M3 - ???researchoutput.researchoutputtypes.contributiontoconference.paper???

AN - SCOPUS:0035555560

SP - 78

EP - 81

T2 - 2001 IEEE Workshop on Statitical Signal Processing Proceedings

Y2 - 6 August 2001 through 8 August 2001

ER -

Super-efficiency in blind signal separation of symmetric heavy-tailed sources

תקציר

כנס

קבצים וקישורים אחרים

טביעת אצבע

פורמט ציטוט ביבליוגרפי