Development of body-conducted speech microphone using Optical Fiber Bragg Grating for supporting Magnetic Resonance Imaging operation

2011 Fiscal Year Final Research Report

• Project/Area Number: 22700189
• Research Category: Grant-in-Aid for Young Scientists (B)
• Allocation Type: Single-year Grants
• Research Field: Perception information processing/Intelligent robotics
• Research Institution: Kagawa National College of Technology
• Principal Investigator: NAKAYAMA Masashi 香川高等専門学校, 助教 (20508163)
• Project Period (FY): 2010 – 2011
• Keywords: 音声情報処理

Research Abstract

Recently, it is increasing the necessity of precisely inspections in the medical front because Japan is rapidly aging. Because of the reason, lots of medical diagnoses systems are employed for precisely inspections for keep the people healthy. Magnetic Resonance Imaging(MRI), one of diagnoses systems for inspection at medical front using magnetic resonance method, give out a high magnetic field and noisy sound such as about 100-dB Sound Pressure Level(SPL) above when it imagines the images. Thus, a communication between a patient and an operator is used an Optical Fiber Bragg Grating(OFBG) microphone which composed of non-magnetic materials because the room does not arrow to bring the conventional microphone composed of magnetic materials however the OFBG microphone does not measure a signal in frequency characteristics for the communication. From these reasons, the author is proposed the development of the body-conducted speech microphone(BCS) using OFBG which the speech is robust signal against air-conducted noise because it is difficult to influence by the noise. In the research, the effectiveness of signal measurement is shown with time-frequency analysis compares to the speech measured accelerometer such as a conventional BCS microphone. And it is proven the experiments that a clearly signal is estimated from the signal measured by BCS microphone for OFBG with our signal retrieval method which are used differential acceleration and noise reduction method.

Research Products

• [Journal Article] Sound quality improvement of body-conducted speech from Optical Fiber Bragg Grating microphone using differential acceleration and noise reduction method (2012)
  • Author(s): M. Nakayama, S. Ishimitsu and S. Nakagawa
  • Journal Title: ICIC Express Letters(ICIC-EL) Volume: Vol.6No.4 Pages: 1013-1018
• [Journal Article] BODY-CONDUCTED SPEECH RECOGNITION IN SPEECH SUPPORT SYSTEM FOR DISORDERS (2011)
  • Author(s): S. Ishimitsu, K. Oda and M. Nakayama
  • Journal Title: International Journal of Innovative Computing, Information and Control Volume: Vol.7No.8 Pages: 4929-4940
• [Journal Article] A study of making clear body-conducted speech using differential acceleration (2011)
  • Author(s): M. Nakayama, S. Ishimitsu and S. Nakagawa
  • Journal Title: IEEJ Transactions on Electrical and Electronic Engineering Volume: Vol.6 Issue 2 Pages: 144-150
• [Presentation] Fundamental research on a body-conducted speech microphone using an Optical Fiber Bragg Grating for high magnetic field and noisy environments (2011)
  • Author(s): M. Nakayama, Shunsuke Ishimitsu, Hayato Nagoshi, Seiji Nakagawa and K. Fukui
  • Organizer: Inter-noise 2011
  • Place of Presentation: Osaka International Convention Center, Osaka, Japan
  • Year and Date: 20110900
• [Presentation] Body-conducted speech microphone using an Optical Fiber Bragg Grating for high magnetic field and noisy environments (2011)
  • Author(s): M. Nakayama, S. Ishimitsu, H. Nagoshi, S. Nakagawa and K. Fukui
  • Organizer: Forum AcusticumForum Acusticum 2011
  • Place of Presentation: Aalborg, Denmark
  • Year and Date: 20110600
• [Presentation] 高磁場・高騒音下で頑健な骨伝導光マイクに関する基礎検討 (2010)
  • Author(s): 中山仁史,石光俊介,名越隼人,中川誠司,福井和敏
  • Organizer: 2010年秋期研究発表会,日本音響学会2010秋季講演論文集
  • Place of Presentation: 関西大学
  • Year and Date: 20100900
• [Book] Improvement of Sound Quality on the Body Conducted Speech Using Differential Acceleration in "Speech Technologies" (2011)
  • Author(s): M. Nakayama, S. Ishimitsu and S. Nakagawa
  • Total Pages: 432
  • Publisher: IN-TECH
• [Remarks] (1)中山仁史,石光俊介,中川誠司,"加速度センサを用いた騒音に頑健な骨伝導-音声マイクロフォンの開発",(財)中谷電子計測技術振興財団年報,第25号, pp.130-135, 2011年8月10日.
• [Remarks] (2)中山仁史,"骨伝導と私",情報科学序説・特別講演,広島市立大学, 2011年12月2日