南京航空航天大学学报
南京航空航天大學學報
남경항공항천대학학보
JOURNAL OF NANJING UNIVERSITY OF AERONAUTICS & ASTRONAUTICS
2010年
2期
185-190
,共6页
杨琳%王从庆%王芝刚%张红占
楊琳%王從慶%王芝剛%張紅佔
양림%왕종경%왕지강%장홍점
舱音记录器%非话语信号%独立分量分析%混合盲分离算法
艙音記錄器%非話語信號%獨立分量分析%混閤盲分離算法
창음기록기%비화어신호%독립분량분석%혼합맹분리산법
cockpit voice recorder (CVR)%non-voice acoustic signal%independent component analysis%combined blind separation algorithm
飞机驾驶舱话音记录器(Cockpit voice recorder,CVR)记录的舱音信号,通常是语音声、警告声、开关按钮声和背景噪声等混合而成的.目前国内对该类信号的分析和辨别主要是计算机译码后进行人耳辨听,存在不易准确分辨出各种独立的声音信号的缺点.本文提出采用基于高效快速的独立分量分析(Efficient variant of fastI-CA,EFICA)算法和可调整权值的二阶盲分离(Weight-adjusted variant second-order blind identification,WA-SOBI)的混合算法对舱音信号进行分离实验.采用不同算法的仿真结果比较表明,混合盲处理算法具有更为优越的分离性能.
飛機駕駛艙話音記錄器(Cockpit voice recorder,CVR)記錄的艙音信號,通常是語音聲、警告聲、開關按鈕聲和揹景譟聲等混閤而成的.目前國內對該類信號的分析和辨彆主要是計算機譯碼後進行人耳辨聽,存在不易準確分辨齣各種獨立的聲音信號的缺點.本文提齣採用基于高效快速的獨立分量分析(Efficient variant of fastI-CA,EFICA)算法和可調整權值的二階盲分離(Weight-adjusted variant second-order blind identification,WA-SOBI)的混閤算法對艙音信號進行分離實驗.採用不同算法的倣真結果比較錶明,混閤盲處理算法具有更為優越的分離性能.
비궤가사창화음기록기(Cockpit voice recorder,CVR)기록적창음신호,통상시어음성、경고성、개관안뉴성화배경조성등혼합이성적.목전국내대해류신호적분석화변별주요시계산궤역마후진행인이변은,존재불역준학분변출각충독립적성음신호적결점.본문제출채용기우고효쾌속적독립분량분석(Efficient variant of fastI-CA,EFICA)산법화가조정권치적이계맹분리(Weight-adjusted variant second-order blind identification,WA-SOBI)적혼합산법대창음신호진행분리실험.채용불동산법적방진결과비교표명,혼합맹처리산법구유경위우월적분리성능.
The acoustic signal recorded by cockpit voice recorder (CVR) on airplanes is a mixed signal combined by voices, switching knob, alarm sound, and noises. So far, in domestic, the analysis and the identification of these acoustic signals are mainly dependent on the human audition, which is difficult to separate independent sounds. A combined algorithm based on efficient variant of fastICA (EFICA) algorithm and weight-adjusted variant second-order blind identification (WASOBI) algorithm is proposed to separate the specific sound from the acoustic signal. Simulation results using these different algorithms are compared. Simulation results show that the combined algorithm has better performance in separating independent sounds from the acoustic signal.