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1)  Cochlear implant
电子耳蜗
1.
Implementation of CIS speech signal processing for cochlear implants by using wavelet transform;
用小波变换实现电子耳蜗CIS语音信号的处理
2.
Performance of STFT in speech processing used for cochlear implant;
采用短时傅立叶变换方法的电子耳蜗语音处理技术
3.
Study on Electrode Array of Cochlear Implant Based on MEMS;
基于MEMS的电子耳蜗电极的设计和研究
2)  electronic cochlear implant
电子耳蜗
1.
Bark wavelet transform is used to realize speech in electronic cochlear implant and to realize speech enhancement combined with human ear’s auditory system.
提出一种符合人耳听觉感知的语音增强方法,使电子耳蜗能在噪声环境下获得准确的语音信息。
2.
Bark wavelet transform,which is more suitable to human ear’s auditory system,is first used in this new algorithm to realize speech in electronic cochlear implant.
提出了一种Bark子波变换的电子耳蜗语音增强算法。
3)  cochlear implant(CI)
电子耳蜗
1.
Cochlear implant(CI) is a neural prosthetic device used to provide the sensation of sound to those who are profoundly deaf by delivering electrical stimulus to auditory nerve directly.
电子耳蜗作为一种帮助全聋患者恢复听觉的电子设备,已日益成为耳科学和康复工程研究领域的热点。
4)  cochlear implants
人工电子耳蜗
1.
The development of speech coding strategies for cochlear implants;
人工电子耳蜗语音编码策略的发展
2.
Objective To introduce the wavelet zero -cross stimulation algorithm and based on which to design and implement the cochlear implants.
目的:介绍小波过零刺激(Wavelet Zero-cross Stimulation,WZS)算法,并利用该算法设计实现人工电子耳蜗系统。
3.
Cochlear implants(CI) are medical devices that can restore partial hearing to a profoundly or totally deafened person via exciting the residual heating neurons directly in accordance with the principle of functional electrical stimulation.
治愈感音神经性耳聋一直是许多医生和科学家的梦想,无论是神经细胞再生技术还是基因治疗手段,其真正应用于临床尚需很长的一段时间,目前人工电子耳蜗技术作为重度感音神经性耳聋患者唯一有效的康复方法,已越来越多地被世人所接受。
5)  Electrocochleogram
耳蜗电图
1.
The Analysis of Electrocochleogram in Patients with Sudden Deafness;
突发性聋患者耳蜗电图分析
2.
Effects of hyperthermia on electrocochleogram-brainstem auditory evoked potentials synthetic wave in guinea pigs;
体温过高对豚鼠耳蜗电图-脑干听觉诱发电位综合波的影响
3.
Aim: To study the effects of hyperthermia on electrocochleogram (ECochG) and its wave origin.
目的:探讨体温过高对耳蜗电图(ECochG)的影响及其波的起源。
6)  ECochG
耳蜗电图
1.
Alternating clicks-evoked ECochG in auditory neuropathy/auditory desynchronization;
听神经病/听觉失同步化患者的交替短声诱发耳蜗电图
2.
Method:Fifteen patients with delayed endolymphatic hydrops were tested with pure tone threshold, ECochG,bithermal caloric test and vestibular evoked myogenic potentials test to detect the lesioned side and the extent of hydrops.
方法:15例DEH患者,分别行纯音听阈及耳蜗电图检查、前庭双温试验和前庭诱发的肌源性电位检查(VEMP),用以诊断及判断DEH的侧别和病变累及范围。
3.
Methods Cases of MD in children seen at the Dizziness Center between January 2004 and July 2007 were reviewed for their clinical manifestations,electrocochleography(ECochG),vestibular evoked myogenic potential(VEMP),caloric test and pure tone audiometric results.
方法观察眩晕诊疗中心2004年1月至2007年7月,共计586例梅尼埃病患者中儿童(≤15岁)梅尼埃病的发病情况,对这些患者进行纯音测听、耳蜗电图、冷热试验及前庭诱发的肌源性电位检查。
补充资料:电子-电子双共振
      在垂直静磁场H的方向,施加两个微波电磁场:①较弱的微波电磁场,激发电子从能级2向能级3跃迁,不致于饱和;②强的微波电磁场,激发电子从能级1向能级4跃迁,使达到饱和,从而导致能级4的电子转移至能级3,以观察反映2→3跃迁的电子自旋共振信号强度的变化,故称为电子-电子双共振。它与电子-核双共振不同之处是不涉及核的跃迁,并且观察的与电子自旋共振有关的能级和未观察的跃迁能级之间无共享的公共能级。
  

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