Mendeley TY _ JOUR ID - 139507081156263469 TI - Instance Based Sparse Classifier Fusion for Speaker Verification JO - Journal of Information Systems and Telecommunication (JIST) JA - ES LA - en SN - 2322-1437 AU - Hasheminejad Mohammad AU - Farsi Hassan AD - University of Birjand AD - University of Birjand Y1 - 2016 PY - 2016 VL - 15 IS - 4 SP - 1 EP - 10 KW - Speaker Recognition KW - Speaker Verification KW - Ensemble Classification KW - Classifier Fusion KW - IBSparse DO - N2 - This paper focuses on the problem of ensemble classification for text-independent speaker verification. Ensemble classification is an efficient method to improve the performance of the classification system. This method gains the advantage of a set of expert classifiers. A speaker verification system gets an input utterance and an identity claim, then verifies the claim in terms of a matching score. This score determines the resemblance of the input utterance and pre-enrolled target speakers. Since there is a variety of information in a speech signal, state-of-the-art speaker verification systems use a set of complementary classifiers to provide a reliable decision about the verification. Such a system receives some scores as input and takes a binary decision: accept or reject the claimed identity. Most of the recent studies on the classifier fusion for speaker verification used a weighted linear combination of the base classifiers. The corresponding weights are estimated using logistic regression. Additional researches have been performed on ensemble classification by adding different regularization terms to the logistic regression formulae. However, there are missing points in this type of ensemble classification, which are the correlation of the base classifiers and the superiority of some base classifiers for each test instance. We address both problems, by an instance based classifier ensemble selection and weight determination method. Our extensive studies on NIST 2004 speaker recognition evaluation (SRE) corpus in terms of EER, minDCF and minCLLR show the effectiveness of the proposed method. UR - rimag.ir/en/Article/14958 L1 - rimag.ir/en/Article/Download/14958 ER -