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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

189 related items for PubMed ID: 31379479

  • 21. Robust decoding of the speech envelope from EEG recordings through deep neural networks.
    Thornton M, Mandic D, Reichenbach T.
    J Neural Eng; 2022 Jul 06; 19(4):. PubMed ID: 35709698
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  • 23. Decoding the Attended Speaker From EEG Using Adaptive Evaluation Intervals Captures Fluctuations in Attentional Listening.
    Jaeger M, Mirkovic B, Bleichner MG, Debener S.
    Front Neurosci; 2020 Jul 06; 14():603. PubMed ID: 32612507
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  • 27. List equivalency of the AzBio sentence test in noise for listeners with normal-hearing sensitivity or cochlear implants.
    Schafer EC, Pogue J, Milrany T.
    J Am Acad Audiol; 2012 Jul 06; 23(7):501-9. PubMed ID: 22992257
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  • 30. Masking release with changing fundamental frequency: Electric acoustic stimulation resembles normal hearing subjects.
    Auinger AB, Riss D, Liepins R, Rader T, Keck T, Keintzel T, Kaider A, Baumgartner WD, Gstoettner W, Arnoldner C.
    Hear Res; 2017 Jul 06; 350():226-234. PubMed ID: 28527538
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  • 31. Effect of spatial separation and noise type on sentence recognition by Mandarin-speaking cochlear implant users.
    Liu YW, Tao DD, Jiang Y, GalvinIII JJ, Fu QJ, Yuan YS, Chen B.
    Acta Otolaryngol; 2017 Aug 06; 137(8):829-836. PubMed ID: 28296522
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  • 35. Sound Source Localization by Normal-Hearing Listeners, Hearing-Impaired Listeners and Cochlear Implant Listeners.
    Dorman MF, Loiselle LH, Cook SJ, Yost WA, Gifford RH.
    Audiol Neurootol; 2016 Aug 06; 21(3):127-31. PubMed ID: 27077663
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  • 36. Neural tracking of the speech envelope in cochlear implant users.
    Somers B, Verschueren E, Francart T.
    J Neural Eng; 2019 Feb 06; 16(1):016003. PubMed ID: 30444216
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  • 37. EEG-based auditory attention detection: boundary conditions for background noise and speaker positions.
    Das N, Bertrand A, Francart T.
    J Neural Eng; 2018 Dec 06; 15(6):066017. PubMed ID: 30207293
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