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Literature DB >> 18060719

Simulation study on active noise control for a 4-T MRI scanner.

Mingfeng Li¹, Teik C Lim, Jing-Huei Lee.

Abstract

The purpose of this work is to study computationally the possibility of the application of a hybrid active noise control technique for magnetic resonance imaging (MRI) acoustic noise reduction. A hybrid control system combined with both feedforward and feedback loops embedded is proposed for potential application on active MRI noise reduction. A set of computational simulation studies were performed. Sets of MRI acoustic noise emissions measured at the patient's left ear location were recorded and used in the simulation study. By comparing three different control systems, namely, the feedback, the feedforward and the hybrid control, our results revealed that the hybrid control system is the most effective. The hybrid control system achieved approximately a 20-dB reduction at the principal frequency component. We concluded that the proposed hybrid active control scheme could have a potential application for MRI scanner noise reduction.

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Year: 2007 PMID： 18060719 PMCID： PMC2323591 DOI： 10.1016/j.mri.2007.08.003

Source DB: PubMed Journal: Magn Reson Imaging ISSN： 0730-725X Impact factor: 2.546

16 in total

1. Isolating the auditory system from acoustic noise during functional magnetic resonance imaging: examination of noise conduction through the ear canal, head, and body.

Authors: M E Ravicz; J R Melcher
Journal: J Acoust Soc Am Date: 2001-01 Impact factor: 1.840

Review 2. Auditory noise associated with MR procedures: a review.

Authors: M McJury; F G Shellock
Journal: J Magn Reson Imaging Date: 2000-07 Impact factor: 4.813

3. Active control of the volume acquisition noise in functional magnetic resonance imaging: method and psychoacoustical evaluation.

Authors: J Chambers; M A Akeroyd; A Q Summerfield; A R Palmer
Journal: J Acoust Soc Am Date: 2001-12 Impact factor: 1.840

4. Magnetic resonance diagnostic device; panel recommendation and report on petitions for magnetic resonance reclassification and codification of reclassification--FDA. Final rule.

Authors:
Journal: Fed Regist Date: 1989-02-01

Simulation study on active noise control for a 4-T MRI scanner.

1. Isolating the auditory system from acoustic noise during functional magnetic resonance imaging: examination of noise conduction through the ear canal, head, and body.

Review 2. Auditory noise associated with MR procedures: a review.

3. Active control of the volume acquisition noise in functional magnetic resonance imaging: method and psychoacoustical evaluation.

4. Magnetic resonance diagnostic device; panel recommendation and report on petitions for magnetic resonance reclassification and codification of reclassification--FDA. Final rule.

5. Acoustic noise characteristics of a 4 Telsa MRI scanner.

6. The use of active noise control (ANC) to reduce acoustic noise generated during MRI scanning: some initial results.

7. Anxiety in patients undergoing MR imaging.

8. Reduction of sound levels with antinoise in MR imaging.

9. Operational safety issues in MRI.

10. Potential hearing loss resulting from MR imaging.

1. In situ active control of noise in a 4 T MRI scanner.

2. Adaptive speech enhancement using directional microphone in a 4-T MRI scanner.

3. Comparison of image quality characteristics on Silent MR versus conventional MR imaging of brain lesions at 3 Tesla.

4. Effect of scanner acoustic background noise on strict resting-state fMRI.