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Title: |
Active Noise and Occlusion Effect Cancellation in Headphones and Hearing Aids |
| Series: |
Aachener BeitrƤge zu digitalen Nachrichtensystemen |
Search Result:
| By (author): |
Stefan Wilhelm Liebich |
| ISBN10-13: |
3958863574 : 9783958863576 |
| Format: |
Paperback |
| Pages: |
142 |
| Weight: |
.316 Kg. |
| Published: |
Verlag G. Mainz - August 2010 |
| List Price: |
43.99 Pounds Sterling |
| Availability: |
Temporarily Out of Stock, more expected soon
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| Subjects: |
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| The perception of oneā s own voice is distorted when telephoning with headsets, or wearing hearing aids. The reason for this is the so-called occlusion effect, which occurs when ear canals are completely or partially closed by the headset or hearing aid. The occlusion causes amplification at low frequencies, and attenuation at high frequencies of oneā s own voice. The unnatural perception of oneā s own voice and of noise caused by chewing and swallowing are among the most common complaints of users. Furthermore, environmental noise might impair perception. In this thesis, both the unnatural perception of oneā s own voice and the disturbance by environmental noise are tackled by a novel signal processing approach. The proposed solution solves the problem of the occlusion effect by actively emitting a compensation signal through the integrated loudspeaker. The approach is called Occlusion Effect Cancellation (OEC) and significantly improves the perception of oneā s own voice and of the acoustic environment. This novel approach combines methods of active noise cancellation (ANC, Noise Cancelling Headphone) with a personalized design. The bilateral headset contains two additional microphones per side, one inner and one outer, to acquire signals for the calculation of the compensation signals. A correctly balanced processing of the two microphone signals results in a "digital ear opening" and a much more natural perception of both oneā s own voice and of the environment. The extent of the digital ear opening is controllable. The system can also be operated as a noise cancelling headphone by changing the parameters to a conventional design to create an acoustic isolation from the environment. This thesis proposes a novel robust approach based on digital filtering to solve the described problems. A combination of feedback and feedforward filter design allows for either approaching personal silence or a natural perception of oneā s own voice and the acoustic environment. |
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