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Stimulus frequency otoacoustic emission tuning curve detection and calibration system

A technology of stimulation frequency and otoacoustic emission, applied in the directions of diagnostic recording/measurement, medical science, electrical components, etc., it can solve the problems of time domain and frequency domain interference, small sound pressure amplitude, noise, etc., to increase position calibration effect of function

Active Publication Date: 2013-01-23
TSINGHUA UNIV +1
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Problems solved by technology

Among them, the OAEs test includes DPOAEs, transient evoked otoacoustic emissions (TEOAEs) and SFOAEs. This patent has many detection functions, but only mentions the stimulation frequency otoacoustic emission, and does not involve the detailed detection process of the stimulation frequency otoacoustic emission and Stimulation frequency otoacoustic emission tuning curve; In addition, this patent does not mention the calibration of the position of the acoustic sensor, and the calibration of the position of the acoustic sensor is more important, too loose or too tight will bring unnecessary noise to the acquired waveform. Noise, which causes time domain and frequency domain interference to the sampling waveform. For example, if the position of the acoustic sensor is too loose, the amplitude of the collected sound pressure will be too small; on the contrary, if the position of the acoustic sensor is too tight, the amplitude of the collected sound pressure will be too large

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  • Stimulus frequency otoacoustic emission tuning curve detection and calibration system
  • Stimulus frequency otoacoustic emission tuning curve detection and calibration system
  • Stimulus frequency otoacoustic emission tuning curve detection and calibration system

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Embodiment Construction

[0021] The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.

[0022] like figure 1 Shown, the present invention comprises a computer 1 that is loaded with windows system, sound card 2, an acoustic transducer (miniature probe) 3 and a preamplifier 4; Acoustic transducer 3 comprises a miniature loudspeaker 31 and a miniature microphone 32, in order to The sound in the external auditory canal of the human ear is isolated from the external sound, and the micro speaker 31 and the micro microphone 32 are inserted into the same soft earplug (not shown in the figure).

[0023] Sound card 2 of the present invention adopts the multimedia sound card that can be connected with computer 1 by IEEE1394 interface, such as the present invention adopts the portable multimedia sound card that has 24bit sampling depth, the highest sampling rate 192kHz produced by RME company when detecting, certainly the present invention The soun...

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Abstract

The invention relates to a stimulus frequency otoacoustic emission (SFOAE) tuning curve detection and calibration system, which comprises a computer, a sound card, an acoustic sensor and a preamplifier. A sound card driving system and a test calibration execution system are arranged in the computer. An acoustic sensor position calibration module in the test calibration execution system is used for calibrating the position of the acoustic sensor. An SFOAE Fine Structure detection module is used for extracting SFOAEs within a target stimulus frequency range, and determining optimal stimulus frequency. An SFOAE I / O function detection module is used for extracting a relationship between frequency otoacoustic emissions and stimulus sounds within a stimulus intensity range at the optimal stimulus frequency, and determining an inhibition rule. An SFOAE turning curve detection module is used for extracting the SFOAEs in line with the inhibition rule at the optimal stimulus frequency, and drawing an SFOAE tuning curve. The SFOAEs can be quantitatively detected and analyzed by extracting characteristic signals of the SFOAEs; and the system can be widely applied to audibility detection.

Description

technical field [0001] The invention relates to an auditory detection and calibration system, in particular to a stimulation frequency otoacoustic emission tuning curve detection and calibration system based on a sound card. Background technique [0002] Stimulus frequency otoacoustic emissions (SFOAEs) are a kind of audio energy with the same nature as pure tone stimulation that is emitted back to the external auditory canal after the cochlea is stimulated by continuous pure tone. Since the frequency of this emitted otoacoustic emission is exactly the same as that of the pure tone stimulus, it is called the stimulus frequency otoacoustic emission. The intensity of the stimulus frequency otoacoustic emissions is very low, usually between -15dB SPL to +20dB SPL, and its frequency selective characteristics at characteristic frequencies can be characterized by the stimulus frequency otoacoustic emissions tuning curve and its Q value. [0003] The stimulation frequency otoacous...

Claims

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Application Information

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IPC IPC(8): H04R29/00
CPCA61B5/121
Inventor 宫琴王瑶先梦黎婷婷张硕越
Owner TSINGHUA UNIV
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