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Main Authors: Li, Kunlun, Ferro, Daniel, Zhao, Xu, Syed, Abdul Jabbar, Vuppala, Anil K, Syed, Azeemuddin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.18447
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_version_ 1866929438089805824
author Li, Kunlun
Ferro, Daniel
Zhao, Xu
Syed, Abdul Jabbar
Vuppala, Anil K
Syed, Azeemuddin
author_facet Li, Kunlun
Ferro, Daniel
Zhao, Xu
Syed, Abdul Jabbar
Vuppala, Anil K
Syed, Azeemuddin
contents Epoch extraction has become increasingly popular in recent years for speech analysis research because accurately detecting the location of the Epoch is crucial for analyzing speech signals. The Epoch, occurring at the instant of excitation in the vocal tract system, particularly during glottal closure, plays a significant role in differentiating speakers in multi-speaker conversations. However, the extraction of the Epoch poses a challenge due to the time-varying factors in the vocal tract system, which makes deconvolution for obtaining the original excitation location more complex. In this paper, various methods for Epoch extraction, including Zero Frequency Filtering (ZFF) and Zero Frequency Resonator (ZFR), will be discussed, and their pros and cons evaluated. In addition, the stability, accuracy, and feasibility of each method will be compared. The evaluation will involve a Matlab-based locking algorithm, and a proposed hardware implementation using Raspberry pi for speaker differentiation. The experiment includes six individuals uttering the phrase "The University of Mississippi," with one person acting as the reference or "lock" speaker. The number of epochs occurring at similar positions to the reference speaker will be counted as Delta, with larger Delta values indicating greater speaker similarity. Experimental results demonstrate that when the speaker remains the same, the average number of Delta is 7.5, while for different speakers, the average number of Delta decreases to 3, 2, 2, and 1, respectively, representing a decrease of approximately 73% in the number of epochs at similar positions compared to the reference speaker.
format Preprint
id arxiv_https___arxiv_org_abs_2407_18447
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Matlab-based Epoch Extraction for Speaker Differentiation
Li, Kunlun
Ferro, Daniel
Zhao, Xu
Syed, Abdul Jabbar
Vuppala, Anil K
Syed, Azeemuddin
Audio and Speech Processing
94A12 (Primary), 68T10 (Secondary)
I.5.4; H.5.5
Epoch extraction has become increasingly popular in recent years for speech analysis research because accurately detecting the location of the Epoch is crucial for analyzing speech signals. The Epoch, occurring at the instant of excitation in the vocal tract system, particularly during glottal closure, plays a significant role in differentiating speakers in multi-speaker conversations. However, the extraction of the Epoch poses a challenge due to the time-varying factors in the vocal tract system, which makes deconvolution for obtaining the original excitation location more complex. In this paper, various methods for Epoch extraction, including Zero Frequency Filtering (ZFF) and Zero Frequency Resonator (ZFR), will be discussed, and their pros and cons evaluated. In addition, the stability, accuracy, and feasibility of each method will be compared. The evaluation will involve a Matlab-based locking algorithm, and a proposed hardware implementation using Raspberry pi for speaker differentiation. The experiment includes six individuals uttering the phrase "The University of Mississippi," with one person acting as the reference or "lock" speaker. The number of epochs occurring at similar positions to the reference speaker will be counted as Delta, with larger Delta values indicating greater speaker similarity. Experimental results demonstrate that when the speaker remains the same, the average number of Delta is 7.5, while for different speakers, the average number of Delta decreases to 3, 2, 2, and 1, respectively, representing a decrease of approximately 73% in the number of epochs at similar positions compared to the reference speaker.
title Matlab-based Epoch Extraction for Speaker Differentiation
topic Audio and Speech Processing
94A12 (Primary), 68T10 (Secondary)
I.5.4; H.5.5
url https://arxiv.org/abs/2407.18447