Abstract
The development of the active noise reduction method is quite interesting because it is more economical and effective in reducing noise than passive noise reduction. However, active noise reduction using a conventional secondary source can become complicated if required significant noise reduction. It will need a large number of secondary sources. The active noise reduction is also ineffective to reduce high-frequency noise. Multipole secondary source is developed to solve those problems. Multipole secondary source is a combination of monopoles, dipoles, and quadrupoles secondary sources which are arranged in a certain way. The dodecahedron speaker model is chosen to be able to produce a multipole secondary source. The optimal secondary source strength can be obtained through the direct approach and the optimization approach. The optimization approach method is chosen because it depends on the frequency variable for determining the strength of multipole secondary sources. The design of active noise reduction equipment can be applied to reduce noise from industrial machinery.
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Acknowledgements
The authors gratefully acknowledge the grant from Research, Community Service, and Innovation Program (P3MI) 2018, Institut Teknologi Bandung, Indonesia, for the support for this research.
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Kusni, M., Purnomo, Gunawan, L., Akil, H.A. (2020). Design of Active Noise Reduction Equipment Using Multipole Secondary Source. In: Praveen Kumar, A., Dirgantara, T., Krishna, P.V. (eds) Advances in Lightweight Materials and Structures . Springer Proceedings in Materials, vol 8. Springer, Singapore. https://doi.org/10.1007/978-981-15-7827-4_2
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