Publications
List of Published Work in the
National Library of Medicine (NLM): MyBibliography or ResearchGate
1.
Xu, L. (1988). [Progress in
immunological research of Meniere's disease: A review]. Foreign
Medicine (Section of ORL), 12(4), 200-203.
2.
Xu, L. (1989). [Otoacoustic emission
and its clinical significance and application: An overview]. Foreign
Medicine (Section of ORL), 13(3), 129-133.
3.
Xu, L., Zhu, X., & Zhao, Y (1989). An allergological study of
Meniere's disease. Clinical
Journal of Otorhinolaryngology, 3(3), 153-156.
4.
Xu, L. (1990). [Computer-aided
three-dimensional reconstruction of the inner ear structure: A review]. Foreign
Medicine (Section of ORL), 14(6), 345-348.
5.
Xu, L., Liu, C., & Liu, Y. (1989). Measurement of evoked
otoacoustic emissions in normal-hearing adults. Chinese Journal of
Otorhinolaryngology Head and Neck Surgery, 24(6), 252-254.
6.
Xu, L., Zhu, X., & Zhao, Y. (1990).
Immunoglobulin E and circulating immune complexes in endolymphatic
hydrops. Annals of Otology, Rhinology
& Laryngology, 99(7), 535-538.
7.
Xu, L., & Liu, C. (1991). Clinical application of evoked
otoacoustic emissions: A preliminary report. Clinical
Journal of Otorhinolaryngology, 5(1), 1-3.
8.
Xu, L., Liu, C., Cai, Z., & Zhu, W. (1991). Pure-tone
audiometry using insert phones in clinic offices. Journal
of Capital Medical University, 12(3), 226-228.
9.
Xu, L., Lü, J., Wang, F., & Liu, C. (1991). Otoacoustic
emission cochleogram evoked by bone conducted stimulation. Acta
Physiologica Sinica, 43(3), 306-310. [PDF]
10.
Chen,
X., Liu, C., Guo, L., & Xu, L. (1992). A preliminary study on
clinical application of cochlear microphonics. Clinical
Journal of Otorhinolaryngology, 6(4), 201-204.
11.
Liu, C., Chen, X. W., & Xu, L. (1992). Cochlear
microphonics and recruitment. Acta Oto-laryngologica, 112(2), 215-220. [PDF]
12.
Harris, F. P., Probst, R., &
Xu, L.
(1992). Suppression of the 2f1-f2 otoacoustic emission in humans. Hearing
Research, 64(1), 133-141.
[PDF]
13.
Harris, F. P., Probst, R., Plinkert, P., & Xu, L.
(1993). Influence of interference tones on 2f1-f2 acoustic distortion
products. In H. Duifhuis, J. W. Horst, P. van Dijk, & S. M. van
Netten (Eds.), Biophysics of Hair Cell Sensory Systems (pp.
87-93). Singapore: World Scientific. [PDF]
14.
Chen, X., Liu, C., & Xu, L. (1993).
Synchronous recording of objective pulsatile tinnitus and electrocardiogram. Journal of
Audiology and Speech Pathology, 1(1), 32-34.
15.
Xu, L., Pfaltz, C. R., & Arnold, W. (1993). HLA antigens in
patients with inner ear diseases of unknown etiology. ORL, 55(3), 125-134.
16.
Roede, J., Harris, F. P., Probst,
R., & Xu, L. (1993). Repeatability of distortion product otoacoustic
emissions in normally hearing humans. Audiology, 32(5), 273-281.
[PDF]
17.
Xu, L., Probst, R., Harris, F. P., & Roede, J. (1994). Peripheral analysis
of frequency in human ears revealed by tone burst evoked otoacoustic emission. Hearing Research, 74,
173-180. [PDF]
18. Middlebrooks, J. C., Clock, A. E., Xu, L., & Green, D. M. (1994). A panoramic code for sound location
by cortical neurons. Science, 264,
842-844. [PDF] {Science Research News related to this
article}
19. Middlebrooks, J. C., Xu, L., Eddins, A. C., & Green, D. M. (1995). Decoding spike patterns in the auditory cortex. In M. Burrows, T. Matheson, P. L. Newland & H. Schuppem (Eds.), Nervous Systems and Behaviour Proceedings of the 4th International Congress of Neuroethology (p. 108). Stuttgart: Georg Thieme Verlag.
20.
Middlebrooks, J. C., Xu, L., Clock,
A. E., & Green, D. M. (1998). Codes for sound-source location in
non-tonotopic auditory cortex. Journal
of Neurophysiology, 80, 863-881. [PDF]
21.
Xu, L., Furukawa, S., & Middlebrooks, J. C. (1998). Sensitivity of
sound-source elevation in non-tonotopic auditory cortex. Journal
of Neurophysiology, 80,
882-894. [PDF]
22.
Xu, L., Furukawa, S., & Middlebrooks, J. C. (1999). Auditory
cortical responses in the cat to sounds that produce spatial illusions. Nature, 399,
688-691. [PDF]
{News
Release related to this article}
23.
Furukawa, S., Xu, L., &
Middlebrooks, J. C. (2000). Coding of sound-source locations by ensembles of
cortical neurons. Journal
of Neuroscience,
20, 1216-1228. [PDF]
24.
Xu, L., & Middlebrooks, J. C. (2000). Individual differences in
external-ear transfer functions of cats. The Journal of the Acoustical Society
of America, 107, 1451-1459. [PDF]
25.
Xu, L., Furukawa, S., & Middlebrooks, J. C. (2000). Cortical
mechanisms for auditory spatial illusion. Acta Oto-laryngologica, 120, 263-266. [PDF]
26.
Pfingst, B. E., Franck, K. H., Xu, L., Bauer,
E. M., & Zwolan, T. A. (2001). Effects of electrode configuration and place
of stimulation on speech perception with cochlear prostheses. Journal of
the Association for Research in Otolaryngology, 2(2),
87-103. [PDF]
{Cover page of this issue of JARO}
27.
Middlebrooks, J. C., Xu, L., & Furukawa, S.,
Macpherson, E. A. (2002). [Cortical neurons that localize sounds]. The Neuroscientist, 8(1), 73-83.
[PDF]
28.
Xu, L., Tsai, Y., & Pfingst, B. E. (2002). Features of stimulation
affecting tonal-speech perception: Implications for cochlear prostheses. The Journal of the Acoustical Society
of America, 112(1), 247-258. [PDF]
29.
Franck, K., Xu, L., & Pfingst,
B. E. (2003). Effects of stimulus level on speech perception with cochlear
prostheses. Journal of
the Association for Research in Otolaryngology, 4(1),
49-59. [PDF]
30.
Xu, L., &
Pfingst, B. E. (2003). Relative importance of the temporal envelope and fine
structure in tone perception. The Journal of the Acoustical Society
of America,
114(6),
3024-3027. [PDF]
31.
Pfingst, B. E., & Xu, L. (2004).
Across-site variation in detection thresholds and maximum comfortable loudness
levels for cochlear implants. Journal of
the Association for Research in Otolaryngology, 5(1),
11-24. [PDF]
32.
Xu, L., Li, Y.,
Hao, J., Chen, X., Xue, S. A., & Han, D. (2004). Tone production in
Mandarin-speaking children with cochlear implants: A preliminary study. Acta Oto-laryngologica, 124,
363-367. [PDF]
33.
Pfingst, B. E., Xu, L., & Thompson,
C. S. (2004). Across-site threshold variation in cochlear implants: Relation to
speech recognition. Audiology & Neurotology, 9, 341-352. [PDF]
34.
Xu, L.,
Thompson, C. S., & Pfingst, B. E. (2005). Relative contributions of
spectral and temporal cues for phoneme recognition. The
Journal of the Acoustical Society of America, 117,
3255-3267. [PDF]
35.
Pfingst, B. E., & Xu, L. (2005).
Psychophysical metrics and speech recognition in cochlear implant users. Audiology & Neurotology, 10, 331-341. [PDF]
36.
Xu, L.,
Zwolan, T. A., Thompson, C. S., & Pfingst, B. E. (2005). Efficacy of a cochlear-implant simultaneous analog
stimulation strategy coupled with a monopolar electrode configuration. Annals of Otology, Rhinology & Laryngology, 114, 886-893.
[PDF]
37.
Xu, L. (2006) [Temporal and Spectral cues for speech
recognition]. Chinese
Journal of Otology, 4(4), 335-342. [PDF]
38.
Xu, L., Zhang, W., Zhou, N., Lee, C.-Y., Li, Y., Chen, X., & Zhao,
X. (2006). Mandarin Chinese tone recognition with an artificial neural network. Journal of
Otology, 1, 30-34. [PDF]
39.
Pfingst, B. E., Xu, L., & Thompson, C. S. (2007). Effects of carrier pulse rate on
modulation detection in subjects with cochlear implants. The Journal of the Acoustical Society
of America, 121, 2236-2246. [PDF]
40.
Xu, L., Chen, X., Zhou, N., Li, Y., Zhao, X., & Han, D. (2007). Recognition
of lexical tone production of children with an artificial neural network. Acta Oto-laryngologica, 127, 365-369. [PDF]
41.
Han, D., Zhou, N., Li, Y., Chen, X., Zhao, X., & Xu,
L. (2007). Tone
production of Mandarin-Chinese-speaking children with cochlear implants. International Journal of Pediatric
Otorhinolaryngology,
71,
875-880. [PDF]
42.
Chen, X., Li, Y., Zhao, X., Han,
D., & Xu, L. (2007). A preliminary study on tone
production in children with cochlear implants. Chinese Journal of Otology, 5, 171-175. [PDF]
43.
Xu, L. & Zheng, Y. (2007). Spectral and temporal cues for phoneme
recognition in noise. The Journal of the Acoustical Society
of America,
122,
1758-1764. [PDF]
44.
Xu, L. & Pfingst, B. E. (2008).
[Spectral and temporal cues for speech recognition: Implications for auditory
prostheses]. Hearing
Research, 242, 132-142. [PDF]
45.
Pfingst, B. E., Burkholder-Juhasz, R. A., Xu,
L., & Thompson, C. S (2008). Across-site patterns of
modulation detection in listeners with cochlear implants. The
Journal of the Acoustical Society of America, 123,
1054-1062. [PDF]
46.
Zhou, N., & Xu, L. (2008).
Development and evaluation of methods for assessing tone production skills in
Mandarin-speaking children with cochlear implants. The Journal of the Acoustical Society
of America, 123, 1653-1664. [PDF]
47.
Pfingst, B. E., Burkholder-Juhasz, R. A., Zwolan, T. & Xu,
L. (2008). Psychophysical assessment of strong and
weak stimulation sites in auditory prosthesis electrode arrays. Hearing
Research, 242, 172-183. [PDF]
48.
Zhou, N., Zhang, W., Lee, C. -Y.,
& Xu, L. (2008). Lexical tone recognition
with an artificial neural network. Ear
and Hearing, 29, 326-335. [PDF]
49.
Zhou, N., & Xu, L. (2008). Lexical tone recognition with
spectrally mismatched envelopes. Hearing
Research, 246, 36-43. [PDF]
50.
Xue, S. A., Hao, G. J., Xu, L., Moranski, T. (2008). Speaking fundamental frequency changes in
women over time. Asia Pacific Journal of Speech,
Language, and Hearing, 11(3), 189-194. [PDF]
51.
Xu, L., Zhou, N., Brashears, R., Rife, K. (2008). Relative
contributions of spectral and temporal cues for phoneme recognition in patients
with sensorineural hearing loss. Journal
of Otology, 3, 84-91. [PDF]
52.
Han, D., Liu B., Zhou, N., Chen, X., Kong, Y., Liu, H., Zheng, Y.,
& Xu, L. (2009). Lexical
tone perception with HiResolution and HiResolution 120 sound-processing
strategies in pediatric Mandarin-speaking cochlear implant users. Ear
and Hearing, 30,
169-177. [PDF]
53.
Xu, L., Zhou, N.,
Chen, X., Li, Y., Schultz, H. M., Zhao, X., & Han, D. (2009). Vocal singing
by prelingually-deafened children with cochlear implants. Hearing
Research, 255, 129-134. [PDF]
54.
Zhou, N., Xu, L., & Lee, C.
-Y. (2010). The effects of frequency-place shift on consonant confusion in
cochlear implant simulations. The Journal of the Acoustical Society
of America, 128, 401-409. [PDF]
55.
Xu, L., Chen, X., Lu, H., Zhou, N., Wang, S., Liu, Q., Li, Y., Zhao, X.,
& Han, D. (2011). Tone perception and production in pediatric cochlear
implant users. Acta Oto-laryngologica, 131, 395-398. [PDF]
56.
Wang, W., Zhou, N., & Xu, L. (2011). Musical pitch and lexical tone
perception with cochlear implants. International Journal of
Audiology, 50, 270-278. [PDF]
57.
Wang, S., Xu, L., & Mannell, R. (2011). Relative contributions of temporal
envelope and fine structure cues to lexical tone recognition in
hearing-impaired listeners. Journal of
the Association for Research in Otolaryngology, 12,
783-794. [PDF]
58.
Li, Y., Chen, X., Zhao, X., Zhou,
N., Xu, L., Liu, T., Zhang, G., Wang, S., & Cui, D. (2011). Recognition
of tone production in Chinese phonation of children with an artificial neural
network. Journal
of Capital Medical University, 32(6),
737-741. DOI:10.3969/j.issn.1006-7795.2011.06.005.
59.
Feng, Y., Xu, L., Zhou, N.,
Yang, G., & Yin S. (2012). Sine-wave speech recognition in a tonal
language. JASA Express Letters, 131,
EL133-EL138.
[PDF]
60.
Zhou, N., Xu, L., & Pfingst, B. E. (2012). Characteristics of detection
thresholds and maximum comfortable loudness levels as a function of pulse rate
in human cochlear implant users. Hearing
Research, 284, 25-32. [PDF]
61.
Feng, Y., Xu, L., Zhou,
N., Yang, G., & Yin, S. (2012). The recognition of sine-wave Mandarin
Chinese in normal-hearing listeners. Chinese Journal of
Otology, 10(2), 178-181. [PDF]
62.
Xu, L. & Zhou, N. (2013). [Tone language
understanding with cochlear implants]. Otolaryngology – News and Reviews,
28(4), 196-199. [PDF]
63.
Mao, Y. & Xu, L. (2013). [Music and cochlear
implants]. Journal of
Otology, 8(1),
32-38. [PDF]
64.
Liu, Q., Zhou, N., Berger, B.,
Huang, D., & Xu, L. (2013).
Mandarin consonant contrast recognition among children with cochlear implants
or hearing aids and normal-hearing children. Otology &
Neurotology, 34(3), 471-476. [PDF]
65.
Zhou, N., Huang, J., Chen, X.,
& Xu, L. (2013).
Relationship between tone perception and production in prelingually-deafened
children with cochlear implants. Otology
& Neurotology, 34(3), 499-506. [PDF]
66.
Mao, Y., Zhang, M., Nutter, H.,
Zhang, Y., Zhou, Q., Liu, Q., Wu, W., Xie, D., & Xu, L. (2013) Acoustic properties
of vocal singing in prelingually-deafened children with cochlear implants or
hearing aids. International Journal of Pediatric
Otorhinolaryngology, 77,
1833-1840. [PDF]
67.
Zhou, N., & Xu, L. (2014). Melody recognition in
dichotic listening with or without frequency mismatch. Ear
and Hearing, 35(3), 379-382. [PDF]
68.
Wang, S., Dong, R., Liu, D., Wang, Y., Liu, B., Zhang, L., & Xu, L. (2015). The role of temporal envelope and
fine structure in Mandarin lexical tone perception in auditory neuropathy
spectrum disorder. PLoS ONE, 10(6),
e0129710. [PDF]
69.
Li, B., Hou, L., Xu, L., Wang, H., Yang,
G., Yin, S., & Feng, Y. (2015). The effect of steep
high-frequency hearing loss on speech recognition using temporal fine structure
in the low frequency regions. Hearing
Research, 326, 66-74. [PDF]
70.
Kim, B. J., Chang, S. -A., Yang, J., Oh, S. -H. & Xu,
L. (2015).
Relative contributions of spectral and temporal cues to Korean phoneme
recognition. PLoS ONE, 10(7),
e0131807. [PDF]
71. Yang, J.,
Brown, E., Fox, R. A., & Xu, L. (2015). Acoustic properties of vowel
production of prelingually deafened children with cochlear implants. The
Journal of the Acoustical Society of America, 138,
2791-2799.
[PDF]
72. Xu, L. (2016). Temporal envelopes in sine-wave speech recognition. Proceedings of the Annual Conference of the International Speech Communication Association (Interspeech 2016), San Francisco, CA., pp. 1682-1686. doi: 10.21437/Interspeech.2016-171. [PDF]
73. Wang, S.,
Dong, R., Liu, D., Wang, Y., Mao, Y., Zhang, H., Zhang, L., & Xu,
L. (2016).
Perceptual separation of sensorineural hearing loss and auditory neuropathy
spectrum disorder. Laryngoscope, 126, 1240-1245. [PDF]
74. Chen, C., Bunescu, R., Xu, L., & Liu, C. (2016). Tone classification in Mandarin Chinese using convolutional neural networks. Proceedings of the Annual Conference of the International Speech Communication Association (Interspeech 2016), San Francisco, CA. pp. 2150-2154. [PDF]
75.
Qi, B., Wang, Y., Xu, L., Liu, B. (2016). Reflections and
experiences on pedagogy in Audiology. Chinese Archives of Otolaryngology -
Head and Neck Surgery, 23(9), 555-556. [PDF]
76.
Yang, J., Zhang, Y., Li, A., & Xu, L. (2017). On
the duration of Mandarin tones. Proceedings of the Annual Conference of
the International Speech Communication Association (Interspeech
2017), Stockholm, Sweden, pp. 1407-1411. [PDF]
77.
Mao, Y., Yang, J., Hahn, E., & Xu, L. (2017). [Auditory
perceptual efficacy of nonlinear frequency compression used in hearing aids: A
review]. Journal of
Otology, 12, 97-111. doi.org/10.1016/j.joto.2017.06.003. [PDF]
78.
Yang, J., Vadlamudi, J., Yin, Z., Lee, C. - Y., & Xu,
L. (2017).
Production of word-initial fricatives of Mandarin Chinese in prelingually
deafened children with cochlear implants. International
Journal of Speech-Language Pathology, 19,
153-164. [PDF]
79.
Mao, Y., & Xu, L. (2017). Lexical tone recognition
in noise in normal-hearing children and prelingually deafened children with
cochlear implants. International Journal of
Audiology, 56, S23-S30. [PDF]
80.
Yang, J., Xu, L. (2017). Mandarin compound vowels
produced by prelingually deafened children with cochlear implants. International Journal of Pediatric
Otorhinolaryngology, 97, 143-149. [PDF]
81.
You, Y., Chen, X., Xu, L., Voss, S. C.,
Meng, C., Rehmann, J., Guo, Q., Kuehnel, V., Qian, J. (2017). The effect of
nonlinear frequency compression on speech recognition in noise for
hearing-impaired listeners with hearing aids. Journal of
Audiology and Speech Pathology, 25(3), 247-251. [PDF]
82.
Qi, B., Mao, Y., Liu, J., Liu, B., Zhang, L., Xu,
L. (2017).
Relative contributions of temporal fine structure and envelope cues for lexical
tone perception in noise. The Journal of the Acoustical Society
of America, 141(5), 3022-3029. [PDF]
83.
You, Y., Chen, X., Xu, L., Meng, C., Guo,
Q. (2017). The effect of nonlinear frequency compression on sound quality
perception by hearing-impaired listeners. Journal of
Audiology and Speech Pathology, 25(6), 640 644. [PDF]
84.
Mao, Y., Chen, Z.M., Xu, L. (2017). The application of neural
network analysis on lexical tone rehabilitation of pediatric cochlear implant
users. Chinese Journal of
Otorhinolaryngology Head and Neck Surgery, 52(8),
573-579. [PDF]
85.
Hou, L, Xu, L. (2018). Role of short-time acoustic
temporal fine structure cues in sentence recognition for normal-hearing
listeners. JASA Express Letters, 143(2),
EL127-EL132. [PDF]
86.
Yang, J., Qian, J., Chen, X., Kuehnel, V., Rehmann, J., von Buol,
A., Li, Y., Ren, C., Liu, B., Xu, L. (2018). Effects of nonlinear
frequency compression on the acoustic properties and recognition of speech
sounds in Mandarin Chinese. The Journal of the Acoustical Society
of America, 143(3), 1578-1590. [PDF]
87.
Ren, C., Yang, J., Zha, D., Lin, Y., Liu, H., Kong, Y., Liu, S., Xu,
L. (2018).
Spoken word recognition in noise in Mandarin-speaking pediatric cochlear
implant users. International Journal of Pediatric
Otorhinolaryngology, 113, 124-130. [PDF]
88.
Mou, Z., Chen, Z., Yang, J., Xu, L. (2018). Acoustic properties of vowel
production in Mandarin-speaking patients with post-stroke spastic dysarthria. Scientific
Reports, 8, 14188. DOI:10.1038/s41598-018-32429-8. [PDF]
89.
Yang, J., Liang, Q., Chen, H., Liu, Y., Xu,
L. (2019).
Singing proficiency of members of a choir formed by prelingually deafened
children with cochlear implants. Journal of Speech, Language, and
Hearing Research, 62, 1561-1573. [PDF]
90.
Li, N., Wang, S., Wang, X., Xu, L. (2019). Contributions of
lexical tone to Mandarin sentence recognition in hearing-impaired listeners
under noisy conditions. JASA Express Letters, 162(2), EL99-EL105. [PDF]
91.
Qi, S., Chen, X., Xu, L., You, Y., Meng, C., Guo, Q., Li.,
Y. (2019). The effects of adaptive nonlinear frequency compression on the sound
quality perception of hearing-impaired listeners. Journal of
Audiology and Speech Pathology, 27(3), 309-313. [PDF]
92.
Qi, S., Chen, X., Xu, L., You, Y., Meng, C., Guo, Q., Li.,
Y. (2019). The effects of adaptive nonlinear frequency compression hearing aids
on the phoneme perception and aided hearing of hearing-impaired listeners and
verification. Journal of
Audiology and Speech Pathology, 27(4), 417-421. [PDF]
93.
Yang, J. & Xu, L. (2019). Do 3- to 4-year-old
Mandarin-English bilinguals separate long-lag VOTs in these two languages? In
Calhoun, S., Escudero, P., Tabain, M. & Warren, P. (eds.) Proceedings of
the 19th International Congress of Phonetic Sciences (ICPhS 2019), Melbourne,
Australia, pp. 2188-2192. [PDF]
94.
Mayle, A., Mou, Z., Bunescu, R., Mirshekarian, S., & Xu,
L., & Liu, C. (2019). Diagnosing dysarthria with long short-term memory
networks. Proceedings of the Annual Conference of the International Speech
Communication Association (Interspeech
2019), Graz, Austria, pp. 4514-4518. [PDF]
95.
Gong, S., Wang, Z., Sun, T., Zhang, Y., Smith, C. D., Xu, L.,
& Liu, J. (2019). Dilated
{FCN:} Listening longer to hear better. The IEEE Workshop on
Applications of Signal Processing to Audio and Acoustics (WASPAA 2019),
New Paltz, New York, pp. 249-253. [PDF]
96.
Wang, X. and Xu, L. (2020). Mandarin tone perception in
multiple-talker babbles and speech-shaped noise. JASA Express Letters, 147(4),
EL307-EL313. [PDF]
97.
Chen, X., You, Y., Yang, J., Qian, J., Lu, E.,
Kuehnel, V., Rehmann, J., Liu, B., Xu, L. (2020). Effects of nonlinear
frequency compression on Mandarin speech and sound-quality perception in
hearing-aid users. International
Journal of Audiology, 59(7), 524-533. [PDF]
98.
Mao, Y., Chen H., Xie, S., Xu, L. (2020). Acoustic
assessment of tone production of prelingually-deafened Mandarin-speaking
children with cochlear implants. Frontiers in
Neuroscience, 14, 592954, https://doi.org/10.3389/fnins.2020.592954. [PDF]
99.
Xu, L., Voss, S. C., Yang, J., Wang, X.,
Lu, Q., Rehmann, J., Kuehnel, V., Qian, J. (2020). Speech perception and
sound-quality rating with an adaptive nonlinear frequency compression algorithm
in Mandarin-speaking hearing-aid users. Journal
of the American Academy of Audiology, 31,
590–598, https://doi.org/10.1055/s-0040-1709450. [PDF]
100.
Xu, L., Xi, X., Patton, A., Wang, X.,
Qi, B., Johnson, L. (2021). A cross-language comparison of sentence recognition
using American English and Mandarin Chinese HINT and AzBio sentences. Ear and Hearing, 42(2), 405-413, http://dx.doi.org/10.1097/AUD.0000000000000938. [PDF]
101.
Yang, J., Xu, L. (2021). Vowel production in
prelingually-deafened Mandarin-speaking children with cochlear implants. Journal of Speech, Language, and
Hearing Research, 64(2), 664-682, https://pubs.asha.org/doi/10.1044/2020_JSLHR-20-00469. [PDF]
102.
Wang, X., & Xu, L. (2021). [Speech perception in noise:
Masking and unmasking]. Journal of
Otology, 16(2), 109-119, DOI: 10.1016/j.joto.2020.12.001. [PDF]
103. Yang, J., Xu,
L. (2021). Duration and amplitude of tone production in children with
cochlear implants. Chinese Journal of Phonetics, 14, 50-58. [PDF]
104. Abuhajar, N., Sun, T., Wang, Z., Gong, S., Smith, C. D., Wang, X., Xu, L., Liu, J. (2021). Network compression and frame stitching for efficient and robust speech enhancement. NAECON 2021 - IEEE National Aerospace and Electronics Conference, August 16 - 19, 2021. Dayton, OH. [PDF]
105.
Sun,
T., Gong, S., Wang, Z., Smith, C. D., Wang, X., Xu, L. & Liu, J.
(2021). Boosting the intelligibility of speech enhancement networks through
self-supervised representations. IEEE 2021 International
Conference on Machine Learning and Applications (ICMLA), December
13-15, 2021, Pasadena, CA. [PDF]
106.
Qi, S., Chen, X., Yang, J., Wang, X., Tian, X., Huang, H.,
Rehmann, J., Kuehnel, V., Guan, J., Xu, L. (2021). Effects of adaptive
nonlinear frequency compression in hearing aids on speech and sound quality
perception. Frontiers in
Neuroscience, 15, 722970, https://doi.org/10.3389/fnins.2021.722970. [PDF]
107.
Yang, J., Wagner, A., Zhang, Y., Xu, L. (2022). Recognition
of vocoded speech in English by Mandarin-speaking English-learners. Speech
Communication, 136, 63-75. [PDF]
108. Xu, L., Yang, J.,
Hahn, E., Uchanski, R., Davidson, L. (2022). Pitch accuracy of vocal singing in
deaf children with bimodal hearing and bilateral cochlear implants. Ear
and Hearing, 43,1336–1346. [PDF]
109. Xi, X.,
Wang, Y., Shi, Y., Gao, R., Li, S., Qiu, X., Wang, Q., Xu, L. (2022).
Development and validation of a Mandarin Chinese adaptation of AzBio sentence
test (CMnBio). Trends in
Hearing, 26, 1-12. https://doi.org/10.1177/23312165221134007.
[PDF]
110. Sun, T.,
Abuhajar, N., Gong, S., Wang, Z., Smith, C. D., Wang, X., Xu, L. &
Liu, J. (2022). Individualized conditioning and negative distances for speaker
separation. IEEE 2022
21st International Conference on Machine Learning and Applications (ICMLA),
December 12-14, 2022, Nassau, Bahamas. [PDF]
111. Yang, J., Wang, X., Yu, J., Xu, L. (2023). Intelligibility of word-initial obstruent consonants in Mandarin-speaking prelingually deafened children with cochlear implants. Journal of Speech, Language, and Hearing Research, 66, 2155–2176. https://doi.org/10.1044/2023_JSLHR-22-00268. [PDF]
112.
Gibson, M., Schlechtweg, M., Ayala, J., Wang, X., Diciaccio, A., Xu,
L. (2023). Energetic and informational masking effects on Spanish vowel
discrimination. Proceedings of the 20th International Congress of Phonetic
Sciences (ICPhS 2023), pp.
471-475. https://guarant.cz/icphs2023/876.pdf.
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113. Yang, J., Xu, L. (2023). Acoustic characteristics of stop consonants in Mandarin-speaking children with cochlear implants. Proceedings of the 20th International Congress of Phonetic Sciences (ICPhS 2023), pp. 3859-3863. https://guarant.cz/icphs2023/61.pdf. [PDF]
114. Yang, J., Xu, L. (2023). Acoustic characteristics of sibilant fricatives and affricates in Mandarin-speaking children with cochlear implants. The Journal of the Acoustical Society of America, 153(6), 3501-3512. [PDF]
115. Yang, J., Barrett, J., Yin, Z., Xu, L. (2023). Recognition of foreign-accented vocoded speech by native English listeners. Acta Acustica, 7, 43. https://doi.org/10.1051/aacus/2023038. [PDF]
116. Yang, J., Sidhu, J., Totino, G., McKim, S., Xu, L. (2023). Accent rating of noise-vocoded and tone-vocoded foreign-accented speech by native listeners. JASA Express Letters, 3(9), 095204. https://doi.org/10.1121/10.0020989. [PDF]
117. Xi, X., Wang, Y., Shi, Y., Gao, R., Li, S., Qiu, X., Wang, Q., Xu, L. (2023) Development and validation of a Mandarin Chinese adaptation of AzBio sentence test (CMnBio) for adult cochlear implant users. Chinese Journal of Otorhinolaryngology - Head & Neck Surgery, 58(11), 1112-1122. [PDF]
118. Wang, X., Xu, L. (2024) English vowel recognition in multi-talker babbles mixed with different numbers of talkers. JASA Express Letters, 4(4), 045202. https://doi.org/10.1121/10.0025616. [PDF]
119.
Yang, J., Wang, X., Costa, V., Xu, L. (2024) Effects of
talker gender on sentence recognition in noise. In submission.
120.
Meng,
C., Guo, Q., Lyu, J., Jaquish, A., Chen, X., Xu, L. (2024) Lexical tone
recognition in Mandarin-speaking children with unilateral cochlear implants or
bimodal hearing. In submission.
121.
Schlechtweg, M., Gibson, M., Ayala, J., Wang, X., Xu, L.
(2024) Vowel perception in noise: A comparison of children with cochlear
implants and their peers with typical hearing. In submission.
122.
Gibson, M., Schlechtweg, M., Alcalde, J. A., Wang, X., Xu, L.
(2024). Native and non-native advantages of vowel recognition in noise. In
submission.
123.
Wang, X., Xu, L. (2024) The effects of spatial separation
and voice difference on masking release in Chinese- and English-speaking
listeners. In preparation.
124.
Xu, L., et al. (2024) Relative
contributions of temporal fine structure and envelope cues to American English
and Mandarin Chinese sentence recognition in noise. In preparation.
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