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研究生: 郭人瑋
Jen-Wei Kuo
論文名稱: 最小化音素錯誤鑑別式聲學模型學習於中文大詞彙連續語音辨識之初步研究
An Initial Study on Minimum Phone Error Discriminative Learning of Acoustic Models for Mandarin Large Vocabulary Continuous Speech Recognition
指導教授: 陳柏琳
Chen, Berlin
學位類別: 碩士
Master
系所名稱: 資訊工程學系
Department of Computer Science and Information Engineering
論文出版年: 2005
畢業學年度: 93
語文別: 中文
論文頁數: 154
中文關鍵詞: 最小化音素錯誤大詞彙連續語音辨識聲學模型訓練聲學模型調適最大化交互資訊
英文關鍵詞: MPE, LVCSR, Acoustic Model Training, Acoustic Model Adaptation, MMI
論文種類: 學術論文
相關次數: 點閱:167下載:33
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  • 近來,有不少文獻針對鑑別式聲學模型訓練加以研究改進,本論文則延伸最小化音素錯誤(Minimum Phone Error, MPE)聲學模型訓練及調適,並使之應用在中文大詞彙連續語音辨識上。本論文以公視新聞外場記者語料作為實驗平台,在實驗中,先對聲學模型進行最大化相似度(Maximum Likelihood, ML)聲學模型訓練,再來則比較最小化音素錯誤與最大化交互資訊(Maximum Mutual Information, MMI)兩種鑑別式訓練,最小化音素錯誤訓練相較於最大化相似度訓練能大幅降低15.52%的相對音節錯誤率、12.33%的相對字錯誤率及10.02%的相對詞錯誤率,明顯優於最大化交互資訊的訓練方式。此外,在非監督式聲學模型調適上,本論文探討了在聲學模型空間及特徵空間上透過轉換矩陣間接調適的調適技術。然而,因為缺少正確轉譯文句(Correct Transcripts)可供最小化音素錯誤估測原始正確率,故需以辨識所產生對應的轉譯文句來取代,使得非監督式最小化音素錯誤調適技術無法對聲學模型參數做良好的估測,導致辨識效能顯著地下降。為了改善此現象,本論文提出了「原始正確率預測模型」(Raw Accuracy Prediction Model, RAPM)用來改良非監督式最小化音素錯誤之調適,對辨識效能有少許的提升。

    Discriminative training of acoustic models has been an active focus of much current research in automatic speech recognition (ASR) in the past few years. This thesis extensively investigated the use of the Minimum Phone Error (MPE) approaches for discriminative training and adaptation of acoustic models for Mandarin large vocabulary continuous speech recognition (LVCSR). All experiments were carried out on the Mandarin broadcast news corpus (MATBN). The experimental results show that MPE training can give significant improvements over the baseline systems whose acoustic models were trained based on the Maximum Likelihood (ML), Maximum Mutual Information (MMI) principles. Comparing to the ML-trained acoustic models, relative reductions of 15.52% syllable error rate (SER), 12.33% character error rate (CER) and 10.02% word error rate (WER) were respectively obtained by using the MPE-trained models. Moreover, unsupervised adaptation of acoustic models via the MPE-trained linear transformation in either the model space or the feature space was studied as well with promising results indicated. However, because there was no correct reference transcript that can be used for accuracy calculation and only the top one automatic transcript can be used instead, the unsupervised MPE-based adaptation techniques may not always accumulate good estimates for the acoustic model parameters and thus their performance will be substantially degraded. To tackle this problem, in this thesis a novel Raw Accuracy Prediction Model (RAPM) was proposed to ameliorate the MPE-based adaptation techniques and slight performance gains were initially demonstrated.

    第1章 緒論 1 1.1 統計式語音辨識 2 1.1.1 聲學模型 3 1.1.2 語言模型 4 1.1.3 語音辨識之流程 5 1.2 模型參數估測問題 6 1.2.1 聲學模型訓練 6 1.2.2 聲學模型調適 7 1.2.3 語言模型訓練 8 1.3 研究內容與貢獻 9 1.4 論文架構 10 第2章 鑑別式訓練法則 11 2.1 全面風險(OVERALL RISK)與貝氏風險(BAYES RISK) 11 2.2 最大化相似度 (MAXIMUM LIKELIHOOD, ML) 13 2.3 鑑別式聲學模型訓練 15 2.3.1 最大化交互資訊 (MAXIMUM MUTUAL INFORMATION, MMI) 15 2.3.2 最小化分類錯誤 (MINIMUM CLASSIFICATION ERROR, MCE) 17 2.3.3 全面風險法則估測 (OVERALL RISK CRITERION ESTIMATION, ORCE) 19 2.3.4 最小化音素錯誤 (MINIMUM PHONE ERROR, MPE) 20 2.3.5 一般性最小化錯誤率 (GENERALIZED MINIMUM ERROR RATE, GMER) 20 2.3.6 最小化貝氏風險 (MINIMUM BAYES RISK, MBR) 21 2.4 鑑別式聲學模型調適 21 2.4.1 貝氏調適法 21 2.4.2 轉換調適法 22 2.4.3 特徵語音空間調適法 24 2.5 鑑別式語言模型訓練 24 第3章 非監督式最小化音素錯誤為基礎的鑑別式線性轉換之調適 25 3.1 最小化音素錯誤訓練 25 3.2 最小化音素錯誤為基礎的鑑別式線性轉換調適技術 35 3.2.1 鑑別式模型空間轉換之調適 35 3.2.2 鑑別式特徵空間轉換之調適 42 3.3 原始正確率預測模型 (RAW ACCURACY PREDICTION MODEL, RAPM) 48 3.3.1 估測缺失資料的統計式方法 48 3.3.2 原始正確率之估測 49 第4章 實驗架構與基礎實驗 53 4.1 師大廣播新聞轉寫系統 53 4.1.1 前端處理 53 4.1.2 詞典建立及語言模型訓練 53 4.1.3 詞彙樹複製搜尋 54 4.2 實驗語料 56 4.3 實驗評估方式 60 4.4 初始聲學模型 61 第5章 聲學模型訓練與調適之實驗 63 5.1 最大化相似度訓練基礎實驗 63 5.2 最小化音素錯誤訓練之實驗 67 5.2.1 I-平滑參數設定 68 5.2.2 語言模型限制與音框鑑別 76 5.2.3 比例係數使用方式與詞段聲學分數估測方式 85 5.2.4 比例係數設定值之比較 94 5.2.5 詞圖中是否加入正確轉譯文句 102 5.2.6 不同層次的原始正確率估測 110 5.2.7 詞圖中靜音的原始正確率 119 5.2.8 與最大化交互資訊訓練之比較 127 5.3 最小化音素錯誤聲學模型調適實驗 136 第6章 結論與未來展望 139 附錄A 實驗語料語者分佈 143 附錄B 輔助函數 (AUXILIARY FUNCTION) 149 B.1 強性輔助函數 (STRONG-SENSE AUXILIARY FUNCTION) 150 B.2 弱性輔助函數 (WEAK-SENSE AUXILIARY FUNCTION) 153

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