涨落复杂性测度在语音端点检测中的应用研究

Application of Fluctuation Complexity Measure to Speech Endpoint Detection

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摘要目的研究基于涨落复杂性测度的语音特征提取,提高低信噪比语音端点检测的正确率和鲁棒性,从而改善语音处理和分析的性能。方法分析状态空间分割方法、窗长以及分区数对检测性能的影响。采用基于信息增益的复杂性行为度量,对含不同噪声类型,以及不同信噪比的各种中英文语音样本进行了对比实验。结果在低信噪比情况下,涨落复杂性测度比广泛应用的谱熵方法更有效。结论涨落复杂性测度技术可以较好地实现在动态噪声环境下对语音端点的检测。该方法鲁棒性好,算法实时性高。 Objective To find a useful index for real-time detecting of speech endpoint and improving the performance of speech processing under low SNR by analyzing fluctuation complexity of speech signals. Method The influence of state space partition method, window size and partition numbers on detecting performance was analyzed. The comparison experiments of speech signals corre- sponding to different SNR and noise type was designed using the measure of complexity behaviors based on the information gain. Result It was found that fluctuation complexity was more effective in detecting Iow-SNR speech than spectral entropy. Conclusion Fluctuation complexity is a valid feature to make speech/non-speech decision for the low SNR cases. The presented method can achieve robust performance and has a good real-time behavior.

作者范影乐武传艳李轶庞全

机构地区杭州电子科技大学生物医学工程与仪器研究所浙江大学生物医学工程与仪器学院

出处《航天医学与医学工程》 CAS CSCD 北大核心 2006年第6期452-455,共4页 Space Medicine & Medical Engineering

基金国家自然科学基金资助项目(60302027) 浙江省教育厅科研计划项目(20030620)

关键词涨落复杂性声纹语音端点检测状态空间分割 fluctuation complexity voice print speech endpoint detection state space partition

分类号 R319 [医药卫生—基础医学] R857.3 [医药卫生—航空、航天与航海医学]

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参考文献7

1Rabiner L,Schafer R.Digital Processing of Speech Signals[M].Beijing:Science Publishing Center,1983.100-104
2高慧,苏广川,陈善广.不同情绪状态下汉语语音的声学特征分析[J].航天医学与医学工程,2005,18(5):350-354. 被引量：23
3Teager H,Teager S.Evidence for nonlinear production mechanisms in the vocal tract[C].In:Gersho A,eds.Speech Production and Speech Modeling,Boston:Kluwer Academic Publishers,1990.241-261.
4王让定,柴佩琪.一个基于谱熵的语音端点检测改进方法[J].信息与控制,2004,33(1):77-81. 被引量：27
5Bates J,Shepard H.Measuring complexity using information fluctuation[J].Physics Letters A,1993,172(66):416-425.
6CHEN Zhongyong,QIAN Mingqi,WU Wenkai,et al.The study of fluctuation complexity for EEG signals[J].Automatica Sinca,2001,27(3):111-114.
7GU Lingyun,Zahorian S.A new robust algorithm for isolated word endpoint detection[C].In:Anon,eds.Speech and Signal Processing.Orlando:Institute of Electrical and Electronics Engineers Inc,2002.4161-4167.

二级参考文献12

1[1]Rabiner L R,Sambur M R.An algorithm for determining the endpoints of isnlated utterances [ J ].Bell System Technical Journal,1975,54(2):297～315.
2[2]Li Q,Zheng J,Zhou Q,et al.A robust,real-time endpoint detector with energy normalization for ASR in adverse enviromments[A].IEEE International Conference on Acoustics,Speech,and Signal Proc essing (ICASSP 2001 ) [ C].Salt Lake City:2001,1.574～577.
3[3]Shin W H,Lee B S,Lee Y K,et al.Speech/non-speech classification using multiple features for robust endpoint detection [ A ].Proceedings of the IEEE International Conference on Acoustics,Speech and Signal Processing [C].lstambul,Turkey:2000,3.1399～1402.
4[4]Matin A,Charlet D,Mauuary L.Robust speech/non-speech detection using LDA applied to MFCC [A].IEEE International Conference on Acoustics,Speech,and Signal Processing (ICASSP 2001) [C].Salt LakeCity:2001,1.685～688.
5[5]Kosmides E,Dermatas E,Kokkinakis G.Stochastic endpoint detection in noisy speech [ A ].International Workshop on Speech and Computer( SPECOM97 ) [ C ].Cluj-Napoca,Romania:1997.109～114.
6[6]Shen J L,Hung J W,Lee L S.Robust entropy-based endpoint detection for speech recognition in noisy environments [ A ].International Conference on Spoken Language Processing (ICSLP-98)[C].Sydney,Australia:1998.232～238.
7[7]Huang L S,Yang C H.A novel approach to robust speech endpoint detection in car environments [ A ].IEEE Intemational Conferenee on Acoustics,Speech,and Signal Processing ( ICASSP'00) [C].lstambul,Turkey:2000,3.1751～1754.
8[8]Jia C,Xu B.An improved entropy-based endpoint detection algorithm [ A ].International Conference on Spoken Language Processing( ICSLP 2002) [ C].Taipei:2002.285～288.
9[9]Bou-Ghazale S E,Assaleh K.A robust endpoint detection of speech for noisy environments with application to automatic speech recognition [ A ].IEEE International Conference on Acoustics,Speech,ani Signal Processing (ICASSP2002) [ C ].Orlando,USA:2002.1753～1756.
10[10]Yamauchi J,Shimamura T.Noise estimation using high frequency regions for spectral subtraction [J].IEICE Transactions on Fundamentals of Electronics,Communications and Computer Sciences,2002,E85-A(3):723～727.

共引文献48

1范影乐,俞祁焰,李轶,庞全.基于Hilbert-Huang变换的含噪语音特征分析[J].传感技术学报,2007,20(10):2288-2293. 被引量：3
2汪涛,胡剑凌.基于低信噪比条件下的VAD算法研究[J].电子工程师,2005,31(2):42-45. 被引量：4
3姚屏,申群太,王俊年.语音信号的谱熵检测在车辆通信中的应用[J].中南大学学报（自然科学版）,2005,36(5):858-862. 被引量：6
4范影乐,武传艳,李轶,庞全.基于C_0复杂度的语音端点检测技术研究[J].传感技术学报,2006,19(3):750-753. 被引量：7
5李晋,王玲.一种改进的孤立词端点检测方法[J].计算机工程与应用,2006,42(30):69-71. 被引量：3
6何清波,孔凡让,王建平,刘永斌.基于独立分量分析特征提取的带噪信号端点检测[J].数据采集与处理,2007,22(1):25-30. 被引量：4
7刘玉娟,方富熹.情绪的语音交流[J].中国行为医学科学,2007,16(4):374-376. 被引量：4
8李凯,徐强樯,左万利.基于分形特征变化的语音端点检测技术研究[J].小型微型计算机系统,2007,28(8):1523-1526. 被引量：4
9谭乔来,钱盛友,陈亚琦.基于信号子空间和信息复杂度的语音端点检测[J].计算机工程与应用,2007,43(34):55-56.
10方建,苏建元.基于DSP和谱熵的语音检测[J].通信技术,2008,41(2):76-77. 被引量：2

1沈羡云,兰景全,向求鲁,孟京瑞,陈涤明,刘月红,梅磊.模拟失重兔脑波超慢涨落图的研究[J].中国空间科学技术,1989,9(4):59-65. 被引量：16
2朱家富,何为.阿托品对心率及心率变异性复杂度的影响[J].中国生物医学工程学报,2009,28(2):188-192. 被引量：4
3王涛,沈谦,冯焕清.基于复杂性测度的心率状态对比(英文)[J].中国科学技术大学学报,2002,32(5):560-565.
4林子.人体有5张身份证[J].新疆医药保健,2002(07X):44-44.
5朱沧一.月亮和人体[J].科学之友,1998,0(2):14-14.
6梅磊,刘月红,曲战胜.记忆状态下脑波超慢涨落图分析[J].航天医学与医学工程,1989,2(3):157-163. 被引量：24
7人体有多少“身份证”[J].领导科学,2002(7):19-19.
8颜红梅,夏阳,钱镇兵,刘衍素,袁辉,尧德中.癫痫大鼠脑电信号的除趋势涨落分析[J].生物医学工程学杂志,2008,25(2):255-258. 被引量：2
9人体的“身份证”[J].科学与管理,2004,24(3):64-64.
10谢佳兴,王俊.基于多重分形去趋势涨落的心室纤颤和心动过速分析[J].北京生物医学工程,2011,30(5):490-495. 被引量：1

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涨落复杂性测度在语音端点检测中的应用研究

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