受说话者变化检测启发的口语变化检测

IF 1.8 3区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Jagabandhu Mishra, S. R. M. Prasanna
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引用次数: 0

摘要

口语变化检测(LCD)是指识别代码转换语篇中的语言转换。同样,识别多说话者语篇中的说话者转换也被称为说话者转换检测(SCD)。由于两者的任务相似,为 SCD 任务开发的架构/框架可能也适用于 LCD 任务。因此,本研究的目的是受 SCD 的启发开发 LCD 系统。最初,LCD 和 SCD 都由人类完成。研究表明,与 SCD 相比,人类在执行 LCD 时需要:(a) 在变化点附近有更长的持续时间;(b) 事先接触特定语言。通过增加基于无监督距离方法的分析窗口长度,可以满足更长的持续时间要求。在合成和实际代码交换数据集上,先验语言知识分别带来了(29.1%)和(2.4%)的相对性能提升,而先验语言知识则带来了(31.63%)和(4.01%)的相对性能提升。实际数据集和合成数据集之间的性能差异主要是由于单语语段时长分布的差异造成的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Spoken Language Change Detection Inspired by Speaker Change Detection

Spoken Language Change Detection Inspired by Speaker Change Detection

Spoken language change detection (LCD) refers to identifying the language transitions in a code-switched utterance. Similarly, identifying the speaker transitions in a multispeaker utterance is known as speaker change detection (SCD). Since tasks-wise both are similar, the architecture/framework developed for the SCD task may be suitable for the LCD task. Hence, the aim of the present work is to develop LCD systems inspired by SCD. Initially, both LCD and SCD are performed by humans. The study suggests humans require (a) a larger duration around the change point and (b) language-specific prior exposure, for performing LCD as compared to SCD. The larger duration requirement is incorporated by increasing the analysis window length of the unsupervised distance-based approach. This leads to a relative performance improvement of \(29.1\%\) and \(2.4\%\), and a priori language knowledge provides a relative improvement of \(31.63\%\) and \(4.01\%\) on the synthetic and practical codeswitched datasets, respectively. The performance difference between the practical and synthetic datasets is mostly due to differences in the distribution of the monolingual segment duration.

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来源期刊
Circuits, Systems and Signal Processing
Circuits, Systems and Signal Processing 工程技术-工程:电子与电气
CiteScore
4.80
自引率
13.00%
发文量
321
审稿时长
4.6 months
期刊介绍: Rapid developments in the analog and digital processing of signals for communication, control, and computer systems have made the theory of electrical circuits and signal processing a burgeoning area of research and design. The aim of Circuits, Systems, and Signal Processing (CSSP) is to help meet the needs of outlets for significant research papers and state-of-the-art review articles in the area. The scope of the journal is broad, ranging from mathematical foundations to practical engineering design. It encompasses, but is not limited to, such topics as linear and nonlinear networks, distributed circuits and systems, multi-dimensional signals and systems, analog filters and signal processing, digital filters and signal processing, statistical signal processing, multimedia, computer aided design, graph theory, neural systems, communication circuits and systems, and VLSI signal processing. The Editorial Board is international, and papers are welcome from throughout the world. The journal is devoted primarily to research papers, but survey, expository, and tutorial papers are also published. Circuits, Systems, and Signal Processing (CSSP) is published twelve times annually.
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