The method of masticatory movement noise reduction using the dual channel implantable microphone

Cho, Jong Hyun; Woo, Seong Tak; Kim, D.W.; Lee, S.B.; Park, J.H.; Seong, Ki Woong; Lee, J.H.

doi:10.1049/cp.2012.2433

Cited by 1 publication

(2 citation statements)

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“…The conventional methods did not consider the biomechanical problems associated with mastication movement. Jenkins et al [12] and Woo et al [13] studied mastication noise at FIHDs with a microphone. However, because mastication noise is generated as vibrations from the jawbone, the microphone is not suitable because of problems related to biocompatibility.…”

Section: Resultsmentioning

confidence: 99%

“…However, they did not consider the anatomical vibration effect for an implanted microphone. Woo et al [13] studied anatomical mastication with dual-channel microphones and an adaptive filter. However, the adaptive filter is not suitable for hearing devices owing to its excessive computation, and the microphones cannot be affected by the acoustic sounds.…”

Section: Introductionmentioning

confidence: 99%

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Mastication noise reduction method for fully implantable hearing aid using piezo-electric sensor

Lee

Wei

et al. 2017

THC

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Abstract. BACKGROUND: Fully implantable hearing devices (FIHDs) can be affected by generated biomechanical noise such as mastication noise. OBJECTIVE: To reduce the mastication noise using a piezo-electric sensor, the mastication noise is measured with the piezoelectric sensor, and noise reduction is practiced by the energy difference. METHODS: For the experiment on mastication noise, a skull model was designed using artificial skull model and a piezoelectric sensor that can measure the vibration signals better than other sensors. A 1 kHz pure-tone sound through a standard speaker was applied to the model while the lower jawbone of the model was moved in a masticatory fashion. RESULTS: The correlation coefficients and signal-to-noise ratio (SNR) before and after application of the proposed method were compared. It was found that the signal-to-noise ratio and correlation coefficients increased by 4.48 dB and 0.45, respectively. CONCLUSION: The mastication noise is measured by piezo-electric sensor as the mastication noise that occurred during vibration. In addition, the noise was reduced by using the proposed method in conjunction with MATLAB. In order to confirm the performance of the proposed method, the correlation coefficients and signal-to-noise ratio before and after signal processing were calculated. In the future, an implantable microphone for real-time processing will be developed.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%