Active control of radiated sound power of a smart cylindrical shell based on radiation modes |
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Authors: | Ali Loghmani Mohammad Danesh Moon K. Kwak Mehdi Keshmiri |
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Affiliation: | 1. Department of Mechanical Engineering, Isfahan University of Technology, 84156-83111 Isfahan, Iran;2. Department of Mechanical, Robotics and Energy Engineering, Dongguk University-Seoul, 26 Pil-Dong 3-Ga, Jung-Gu, Seoul 100-715, Republic of Korea |
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Abstract: | A new approach is proposed in this paper based on radiation modes to control the radiated sound pressure of a smart cylindrical shell equipped with piezoelectric sensor and actuators. The radiation modes determine the specific distribution of normal velocity of the shell that independently radiates sound to the surrounding space. In this study, the first radiation mode is controlled since it is the most effective mode in terms of the radiated power. The results indicate that most of the sound power is attenuated by controlling only this mode. The extended Hamilton’s principle, the Sanders shell theory and the assumed mode method are used to derive the equations of motion in a state space form that is suitable to design the controller. The radiated sound pressure is calculated using the simplified Kirchhoff-Helmholtz integral along with a Kalman filter to observe the system states, and a modified higher harmonic control (MHHC) is designed to attenuate the sound power. A numerical simulation demonstrated the effectiveness of the proposed approach compared to active vibration control (AVC) in attenuating the radiated sound in the low frequency domain. |
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Keywords: | Active structural acoustic control Radiation mode Radiation efficiency Smart cylindrical shell Piezoelectric transducers |
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