In:Approaches to Hungarian: Volume 16: Papers from the 2017 Budapest Conference
Edited by Veronika Hegedűs and Irene Vogel
[Approaches to Hungarian 16] 2020
► pp. 187–206
Get fulltext
Fixed stress as phonological redundancy
Effects on production and perception in Hungarian and other languages
Available under the Creative Commons Attribution-NonCommercial-NoDerivatives (CC BY-NC-ND) 4.0 license.
For any use beyond this license, please contact the publisher at rights@benjamins.nl.
Published online: 8 April 2020
https://doi.org/10.1075/atoh.16.09vog
https://doi.org/10.1075/atoh.16.09vog
Abstract
From the perspective of word prosody, fixed stress languages such as Hungarian may seem rather uninteresting: stress, by
definition, always falls on the same position in a word. This paper examines the acoustic properties of Hungarian stress based
on a large, systematically collected, corpus and considers them in relation to issues of redundancy in speech production and
in speech perception (stress deafness). The Hungarian findings also serve as the basis of comparison for languages with other
types of stress systems, analysed with the same methods: Turkish, Arabic and Spanish. It is demonstrated that stress
predictability affects both speech production and perception, and also that its effect may be mitigated by exceptions in
otherwise predictable stress languages.
Keywords: stress, redundancy, stress perception, stress production, stress deafness
Article outline
- 1.Introduction
- 2.Stress systems and redundancy
- 2.1Overview of stress systems
- 2.2Redundancy and predictable stress
- 2.3Predictable stress: Perception and production
- 2.3.1Stress perception
- 2.3.2Production
- 3.Experimental design: Stress production and analysis
- 3.1Experimental design
- 3.1.1Hypotheses
- 3.1.2Procedure
- 3.2Stimuli
- 3.3Analyses
- 3.1Experimental design
- 4.Results: Stress properties in Hungarian, and comparison with other languages
- 5.Discussion: Effects of predictability and exceptions on the production and perception of stress
- 6.Conclusions
Notes References
References (22)
Altmann, H. 2006. The
perception and production of second language stress: A cross-linguistic experimental
study. PhD Dissertation. University of Delaware.
Aylett, M. & A. Turk. 2004. The
smooth signal redundancy hypothesis: A functional explanation for relationships between redundancy, prosodic
prominence, and duration in spontaneous speech. Language and Speech
47(1). 31–56.
Athanasopoulou, A., I. Vogel & H. Dolatian. 2017. Acoustic
properties of canonical and non-canonical stress in French, Turkish, Armenian and Brazilian
Portuguese. Proceedings of Interspeech
2017. Stockholm, Sweden.
Domahs, U., R. Wiese, I. Bornkessel-Schlesewsky, & M. Schlesewsky. 2008. The
processing of German word stress: Evidence for the prosodic
hierarchy. Phonology 25. 1–36.
Domahs, U., S. Genc, J. Knaus, R. Wiese & B. Kabak. 2012a. Processing
(un-) predictable word stress: ERP evidence from Turkish. Language and Cognitive
Processes 28(3). 335–354.
Domahs, U., J. Knaus, P. Orzechowska & R. Wiese. 2012b. Stress
“deafness” in a language with fixed word stress: An ERP study on Polish. Frontiers in
Psychology 3. 1–15.
Domahs, U., J. Knaus, H. El Shanawany & R. Wiese. 2014. The
role of predictability and structure in word stress processing: An ERP study on Cairene Arabic and a cross-linguistic
comparison. Frontiers in
Psychology 5. 1–18.
Dupoux, E., N. Sebastián-Gallés, E. Navarrete & S. Peperkamp. 2008. Persistent
stress “deafness”: The case of French learners of
Spanish. Cognition 106. 682–706.
Dupoux, E., S. Peperkamp, & N. Sebastián-Galles. 2001. A
robust method to study stress “deafness.” The Journal of the Acoustical Society of
America 110. 1606–1618.
Dupoux, E., C. Pallier, N. Sebastian, & J. Mehler.1997. A
destressing “deafness” in French? Journal of Memory and
Language 36. 406–421.
Kabak, B., & I. Vogel. 2001. The
phonological word and stress assignment in
Turkish. Phonology 18. 315–360.
Knaus, J., & U. Domahs. 2009. Experimental
evidence for optimal and minimal metrical structure of German word
prosody. Lingua 119: 1396–1413.
Knaus, J., R. Wiese & U. Janssen. 2007. The
processing of word stress: EEG studies on task related components. In
Proceedings of the International Congress of Phonetic
Sciences, 709–712. Saarbrücken.
Peperkamp, S. & E. Dupoux. 2002. A
typological study of stress “deafness”. In C. Gussenhoven & N. Warner (eds.), Laboratory
Phonology, 203–240. Berlin: de Gruyter
Peperkamp, S., I. Vendelin & E. Dupoux. 2010. Perception
of predictable stress: A cross-linguistic investigation. Journal of
Phonetics 38. 422–430.
Schmidt-Kassow, M., K. Rothermich, M. Schwartze & S. Kotz. 2011. Did
you get the beat? Late proficient French-German learners extract strong-weak patterns in tonal but not in linguistic
sequences. Neuroimage 54. 568–576.
Turk, A. 2010. Does
prosodic constituency signal relative predictability? A smooth signal redundancy
hypothesis. Laboratory
Phonology 1(2). 227–262.
Turnbull, R. 2017. The
role of predictability in intonational variability. Language and
Speech 60. 123–153.
Vogel, I., A. Athanasopoulou & N. Pincus. 2015. Acoustic
properties of prominence in Hungarian and the functional load
hypothesis. In É. Dékány, K. É. Kiss & B. Surányi (eds.), Approaches
to Hungarian.
14, 267–292. Amsterdam: John Benjamins.
. 2016. Prominence,
contrast and the functional load hypothesis: An acoustic
investigation. In R. Goedemans, J. Heinz & H. van der Hulst (eds.), Dimensions of
phonological
stress, 123–167. Cambridge: University Press.
. 2017. Acoustic
properties of prominence and foot structure in
Arabic. In H. Ouali (ed.), Perspectives
on Arabic Linguistics XXIX. Papers from the Annual Symposium on Arabic Linguistics, Milwaukee, Wisconsin,
2015, 55–88. Amsterdam: John Benjamins Publishing Company.