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Active Noise Control System is one of the noise cancellation method by using <br /> <br /> <br /> <br /> <br /> antinoise signal produced by the system to cancel the noise from the noise source. <br /> <br /> <br /> <br /> <br />...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/17509 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Active Noise Control System is one of the noise cancellation method by using <br />
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antinoise signal produced by the system to cancel the noise from the noise source. <br />
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The antinoise signal generated should have a reversed in phase with the noise in <br />
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order to cancel the noise. The active noise control system is effective to cancel the <br />
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low frequency noise. That is the advantage of using the ANC system rather than <br />
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pasive noise control. The pasive noise control needed to cancel the low frequency <br />
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noise can cost a bigger price. <br />
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The implementation of ANC system should consider some important factors, <br />
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such as: sensor and antinoise source placement, algorithm, noise character and <br />
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quiet zone. The experiment has a purpose to cancel the noise generated from an <br />
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industrial machine which come from some point and has a broadband frequency <br />
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characteristic in the open space. It will be done by using Filtered Error LMS <br />
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Algorithm with geometry variation. The experiment is also done using single <br />
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channel and multichannel ANC system in laboratory and factory where the <br />
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machine is located. There will be some parameter considered during the <br />
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experiment, such as: filter order, geometry, quite zone, sampling frequency, <br />
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pasive cancellation, and additional component. <br />
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The result shows that the noise is reduced about 1 dBA around the error <br />
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sensor with the experiment using DSK TMS320C6713 together with <br />
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DSK_AUDIO16_BASE and DSK_AUDIO4 for single channel ANC and 1x4x4 <br />
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Decentralization ANC. The noise reduction can reach 4,15 dBA while using the <br />
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single channel FELMS algorithm without using DSK_AUDIO16_BASE and <br />
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DSK_AUDIO4. The other important result is that the sensor and antinoise souce <br />
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placement, sampling frequency and filter order play the important role to increase <br />
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the noise reduction. |
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