基于顺序跟踪滤波器的直升机噪声源分离

IF 1.4 4区工程技术 Q2 ENGINEERING, AEROSPACE

Journal of the American Helicopter Society Pub Date : 2023-01-01 DOI:10.4050/jahs.69.012006

Joel Sundar Rachaprolu, Eric Greenwood

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引用次数: 0

摘要

考虑到不断变化的噪声源对旋翼机气动声学的重要性，本文提出了一种新的地面声源分离技术。源分离过程是基于时域去多普勒方法与沃尔德-卡尔曼阶数跟踪滤波方法的结合。该方法可以在声源随时间连续变化的情况下提取转子谐波噪声，包括叶片-涡相互作用噪声等脉冲事件。与谐波平均等传统方法相比，该方法的优点是在整个提取过程中保留了声信号的相位和振幅关系。将该方法应用于贝尔430直升机的实测声学数据。将实测数据分离为主转子谐波、尾桨谐波和宽带残差分量。在稳态条件下，提取出来的声源可以被消传播形成声源半球，声源半球显示了分离的主尾桨声源的方向性。源分离过程也应用于机动飞行条件。每个分量都有不同的脉冲形状和指向性趋势，符合气动声学理论。

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Helicopter Noise Source Separation Using an Order Tracking Filter

Due to the importance of understanding the aeroacoustics of rotorcraft with continually changing noise sources, this paper presents a new technique for source separation from ground-based acoustic measurements. The source separation process is based on combining a time-domain de-Dopplerization method with the Vold–Kalman order tracking filter approach. This process can extract rotor harmonic noise even when the sources are continuously changing with time, including impulsive events such as blade–vortex interaction noise. The advantage of this approach over traditional methods such as harmonic averaging is that the phase and amplitude relationship of acoustic signals is preserved throughout the extraction process. The approach is applied to the measured acoustic data from a Bell 430 helicopter. The measured data were separated into main rotor harmonic, tail rotor harmonic, and broadband residual components. For steady-state conditions, the extracted components could be depropagated to form acoustic hemispheres showing the directivity of the separated main and tail rotor components. The source separation process was also applied to a maneuvering flight condition. Each component has different pulse shapes and directivity trends, consistent with aeroacoustic theory.

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来源期刊

Journal of the American Helicopter Society 工程技术-工程：宇航

CiteScore

4.10

自引率

33.30%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of the American Helicopter Society is a peer-reviewed technical journal published quarterly (January, April, July and October) by AHS — The Vertical Flight Society. It is the world''s only scientific journal dedicated to vertical flight technology and is available in print and online. The Journal publishes original technical papers dealing with theory and practice of vertical flight. The Journal seeks to foster the exchange of significant new ideas and information about helicopters and V/STOL aircraft. The scope of the Journal covers the full range of research, analysis, design, manufacturing, test, operations, and support. A constantly growing list of specialty areas is included within that scope. These range from the classical specialties like aerodynamic, dynamics and structures to more recent priorities such as acoustics, materials and signature reduction and to operational issues such as design criteria, safety and reliability. (Note: semi- and nontechnical articles of more general interest reporting current events or experiences should be sent to the VFS magazine