1 Ching TY,Incerti P,Hill M.Binaural benefits for adults who use hearing aids and cochlear implants in opposite ears[J].Ear&Hearing,2004,25:9.

2 Kiefer J,Pok M,Adunka O,et al.Combined electric and acoustic stimulation of the auditory system:results of a clinical study[J].Audiology&Neurotology,2005,10:134.

3 Mok M,Grayden D,Dowell RC,et al.Speech perception for adults who use hearing aids in conjunction with cochlear implants in opposite ears[J].Journal of Speech Language&Hearing Research,2006,49:338.

4 Gifford RH,Dorman MF,Mckarns SA,et al.Combined electric and contralateral acoustic hearing:word and sentence recognition with bimodal hearing[J].Journal of Speech Language&Hearing Research Jslhr,2007,50:835.

5 Dorman MF,Gifford RH,Spahr AJ,et al.The benefits of combining acoustic and electric stimulation for the recognition of speech,voice and melodies[J].Audiology&Neurotology,2008,13:105.

6 Yoon YS,Li Y,Fu QJ.Speech recognition and acoustic features in combined electric and acoustic stimulation[J].Journal of Speech Language&Hearing Research,2012,55:105.

7 Chang YP,Chang RY,Lin CY,et al.Mandarin tone and vowel recognition in cochlear implant users:effects of talker variability and bimodal hearing[J].Ear&Hearing,2016,37:271.

8 Turner CW,Gantz BJ,Vidal C,et al.Speech recognition in noise for cochlear implant listeners:benefits of residual acoustic hearing[J].Journal of the Acoustical Society of America,2004,115:1729.

9 Kong YY,Stickney GS,Zeng FG.Speech and melody recognition in binaurally combined acoustic and electric hearing[J].Journal of the Acoustical Society of America,2005,117(3Pt1):1351.

10 Brown CA,Bacon SP.Achieving electric-acoustic benefit with a modulated tone[J].Ear&Hearing,2009,30:489.

11 Sheffield BM,Zeng FG.The relative phonetic contributions of a cochlear implant and residual acoustic hearing to bimodal speech perception[J].Journal of the Acoustical Society of America,2012,131:518.

12 Kong YY,Braida LD.Cross-frequency Integration for Consonant and Vowel Identification in Bimodal Hearing[J].Journal of Speech Language&Hearing Research,2010,54:959.

13 Li Y,Zhang G,Rd GJ,et al.Mandarin speech perception in combined electric and acoustic stimulation[J].Plos One,2014,9:e112471.

14 Wu JL,Lin CY,Yang HM,et al.Effect of age at cochlear implantation on open-set word recognition in Mandarin speaking deaf children[J].International Journal of Pediatric Otorhinolaryngology,2006,70:207.

15 Fu QJ,Zeng FG,Shannon RV,et al.Importance of tonal envelope cues in Chinese speech recognition[J].Journal of the Acoustical Society of America,1998,104:505.

16 Shannon RV,Fu QJ,Rd GJ.The number of spectral channels required for speech recognition depends on the difficulty of the listening situation[J].Acta oto-laryngologica,2004,124 (Supplementum):50.

17 Luo X,Fu QJ.Enhancing Chinese tone recognition by manipulating amplitude envelope:Implications for cochlear implants[J].Journal of the Acoustical Society of America,2004,116:3659.

18 Green T,Faulkner A,Rosen S,et al.Enhancement of temporal periodicity cues in cochlear implants:effects on prosodic perception and vowel identification[J].Journal of the Acoustical Society of America,2005,118:375.

19 Fu QJ,Hsu CJ,Horng MJ.Effects of speech processing strategy on Chinese tone recognition by nucleus-24cochlear implant users[J].Ear&Hearing,2004,25:501.

20 Luo X,Fu QJ,Wei CG,et al.Speech recognition and temporal amplitude modulation processing by mandarin-speaking cochlear implant users[J].Ear&Hearing,2008,29:957.

21 Zhou N,Huang J,Chen X,et al.Relationship between tone perception and production in prelingually deafened children with cochlear implants[J].Otology&neurotology,2013,34:499.

22 Tao D,Deng R,Jiang Y,et al.Melodic pitch perception and lexical tone perception in Mandarin-speaking cochlear implant users[J].Ear&Hearing,2015,36:102.

23 Luo X,Fu QJ,Wu HP,et al.Concurrent-vowel and tone recognition by Mandarin-speaking cochlear implant users[J].Hearing Research,2009,256:75.

24 Wang W,Zhou N,Xu L.Musical pitch and lexical tone perception with cochlear implants[J].International Journal of Audiology,2011,50:270.

25 Shpak T,Most T,Luntz M.Fundamental frequency information for speech recognition via bimodal stimulation:cochlear implant in one ear and hearing aid in the other[J].Ear&Hearing,2013,35:230.

26 Kong YY,Carlyon RP.Improved speech recognition in noise in simulated binaurally combined acoustic and electric stimulation[J].Journal of the Acoustical Society of America,2007,121:3717.

27 Mok M,Galvin KR.Speech perception benefit for children with a cochlear implant and a hearing aid in opposite ears and children with bilateral cochlear implants[J].Audiology&Neurotology,2010,15:44.

28 Zhang T,Spahr AJ,Dorman MF,et al.Relationship between auditory function of nonimplanted ears and bimodal benefit[J].Ear&Hearing,2013,34:61.

29 Neuman AC,Svirsky MA.The effect of hearing aid bandwidth on speech recognition performance of listeners using a cochlear implant and contralateral hearing aid(bimodal hearing)[J].Ear&Hearing,2013,34:553.

30 Morera C,Manrique MA,Garcia IL,et al.Advantages of binaural hearing provided through bimodal stimulation via a cochlear implant and a conventional hearing aid:A 6-month comparative study[J].Acta Oto-Laryngologica,2005,125:596.

31 Tyler RS,Parkinson AJ,Wilson BS,et al.Patients utilizing a hearing aid and a cochlear implant:speech perception and localization[J].Ear&Hearing,2002,23:98.

32 Geurts L,Wouters J.Coding of the fundamental frequency in continuous interleaved sampling processors for cochlear implants[J].Journal of the Acoustical Society of America,2001,109:713.

33 Fu QJ,Shannon RV,Wang X.Effects of noise and spectral resolution on vowel and consonant recognition:Acoustic and electric hearing[J].Journal of the Acoustical Society of America,1999,104:3586.

34 徐立.言语识别中的时域及频域信息[J].中华耳科学杂志,2006,4:335.

35 陈雪清,刘海红.语前聋患者人工耳蜗植入后声调识别能力研究[J].听力学及言语疾病杂志,2010,18:55.

36 Stickney GS,Zeng FG,Litovsky R,et al.Cochlear implant speech recognition with speech maskers[J].Journal of the Acoustical Society of America,2004,116:1081.