ANALYTIC AND SIGNAL-PROCESSING APPROACHES TO THE ACOUSTIC CENTERING OF A BAFFLED CIRCULAR PISTON

被引:0
|
作者
Shabtai, Noam R. [1 ]
Vorlaender, Michael [1 ]
机构
[1] Rhein Westfal TH Aachen, Inst Tech Acoust, Kopernikusstr 5, D-52074 Aachen, Germany
来源
PROCEEDINGS OF THE 22ND INTERNATIONAL CONGRESS ON SOUND AND VIBRATION: MAJOR CHALLENGES IN ACOUSTICS, NOISE AND VIBRATION RESEARCH, 2015 | 2015年
关键词
D O I
暂无
中图分类号
O42 [声学];
学科分类号
070206 ; 082403 ;
摘要
Auralization systems that implement the radiation pattern of acoustic sources may benefit from the spatial information of the sound that is radiated from the source. However, in such applications, the acoustic center of the source from which the sound is radiated, should first be defined. Previously studied source centering algorithms use either signal post processing methods applied to measurements using a spherical microphone array or analytic methods. This work presents an analytic calculation of the acoustic center of a circular pipe with an open termination in the form of a radiating circular baffled piston. This structure can be used to approximate a radiation pattern of brass musical instruments. The effective length of the pipe is calculated and compared to the acoustic center that is calculated using a signal processing method.
引用
收藏
页数:8
相关论文
共 50 条
  • [21] Signal-processing approaches to risk assessment in coronary artery disease
    Kakadiaris, Ioannis A.
    O'Malley, Sean M.
    Vavuranakis, Manolis
    Carlier, Stephane
    Metcalfe, Ralph
    Hartley, Craig J.
    Falk, Erling
    Naghavi, Morteza
    IEEE SIGNAL PROCESSING MAGAZINE, 2006, 23 (06) : 59 - 62
  • [22] INSTRUMENTATION AND SIGNAL-PROCESSING FOR MONITORING STRUCTURAL INTEGRITY BY ACOUSTIC-EMISSION
    NAKASA, H
    MATERIALS EVALUATION, 1979, 37 (07) : 62 - 62
  • [23] APPLICATION OF NON-LINEAR ACOUSTIC PHENOMENA TO SIGNAL-PROCESSING AND SPECTROSCOPY
    MELCHER, RL
    SHIREN, NS
    IEEE TRANSACTIONS ON SONICS AND ULTRASONICS, 1979, 26 (02): : 148 - 148
  • [24] LOADING TRANSDUCERS FOR NONDESTRUCTIVE TESTING AND SIGNAL-PROCESSING BY ACOUSTIC BULK WAVES
    SIMANSKI, JP
    POULIQUEN, J
    DEFEBVRE, A
    ULTRASONICS, 1974, 12 (03) : 100 - 105
  • [25] OPTICAL ACOUSTIC PRESSURE DATA UNIT WITH THE CORRELATION METHODS OF SIGNAL-PROCESSING
    ZHIVLYUK, YN
    RZHAVIN, YN
    RADIOTEKHNIKA I ELEKTRONIKA, 1991, 36 (03): : 625 - 628
  • [26] CHIRP SIGNAL-PROCESSING USING ACOUSTIC SURFACE-WAVE FILTERS
    NUDD, GR
    OTTO, OW
    IEEE TRANSACTIONS ON SONICS AND ULTRASONICS, 1976, 23 (03): : 195 - 195
  • [27] APPLICATION OF AN INTELLIGENT SIGNAL-PROCESSING SYSTEM TO ACOUSTIC-EMISSION ANALYSIS
    GRABEC, I
    SACHSE, W
    JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 1989, 85 (03): : 1226 - 1235
  • [28] SIGNAL-PROCESSING USING SURFACE-ACOUSTIC-WAVE AND DIGITAL COMPONENTS
    GAUTIER, H
    TOURNOIS, P
    IEE PROCEEDINGS-F RADAR AND SIGNAL PROCESSING, 1980, 127 (02) : 92 - 98
  • [29] Signal-processing approaches for image-resolution restoration for TOMBO imagery
    Choi, Kerkil
    Schulz, Timothy J.
    APPLIED OPTICS, 2008, 47 (10) : B104 - B116
  • [30] NEW APPROACHES IN SIGNAL-PROCESSING TECHNIQUE FOR SODIUM BOILING NOISE DETECTION
    SINGH, OP
    REDDY, CP
    SRINIVASAN, GS
    PRABHAKAR, R
    VYJAYANTHI, RK
    PROGRESS IN NUCLEAR ENERGY, 1988, 21 : 613 - 622
12345