Course: Experimental Phonetics 2013

Course: Experimental Phonetics 2013


	Course	Experimental Phonetics

	Vakcode	184410026Y

	Credits	6 ECTS

	Entry requirements	BA General Linguistics or something equivalent

	Period	semester 1, block 2 (November - December 2013)

	Information	Onderwijssecretariaat Taal- en Letterkunde also see IFA teaching also see the page of the study guide

	Part of...	Research Master in Linguistics Master in General Linguistics

	Teacher	David Weenink, replaced with Radosław (Radek) Święciński.

	Place	P.C. Hoofthuis 4.40

	Time	Wednesday 17:00–18:45 Friday 13:00–14:45 (exact days see below)

	Objectives
	You acquire theoretical skills to turn a linguistic research question (phonology) into the design of an experiment on a corpus of recorded speech (phonetics). You also acquire practical skills to perform such an experiment and report on it in an article. You will become familiar with some of the techniques used in speech signal analysis, synthesis and manipulation.

	Contents
	Attention will be paid to the following steps in doing research: Acquiring and managing a speech corpus. Formulating a linguistically inspired research question (phonology: segments, phonemes, discrete representations, the lexicon, arbitrary rules) that could be answered by a speech corpus (phonetics: durations, spectra, pitches, silences, noises). Designing an experiment on a speech corpus (selection of tokens and speakers, selection of analysis methods). Collecting the data. Techniques for speech analysis and synthesis. Basic statistical techniques for finding effect sizes (confidence intervals of differences and correlations). Automating the procedures for data collection and analysis in a Praat script.

	Format
	Discussions and training sessions.

	Study materials
	The book Experimental Phonetics by Katrina Hayward, Longman, London 2000 (available from the teachers during the first lecture). The book Speech signal processing with Praat by David Weenink. The latest version of the Praat program.

	Cost
	€60 for the book.

	Language
	English

Assessment:

Your final grade will be a weighted average of:

Home assignments (45%).
Several small written examinations (25%). There can be a little test in each lecture, on the book chapter.
An open-book test in week 8 (30%, duration 2 hours).

Time schedule

Each of the 14 lectures lasts 2 hours. Your homework may cost you about 17 hours a week (books: 60 pages = 9 hours; plus 4 assignments of two hours each); this is also true of the homework you receive in the last week, on which the final test (in week 8) will be based. This course will therefore cost you about 21 hours a week (half of your time), which makes a total of 168 hours, which is exactly right for 6 ECTS.

Study guide per lecture

A typical lecture is divided into two parts:

First part: discussing the chapter you read. This involves the teacher questioning you (with an open book) about details or deeper meanings of the text. This has three purposes: (1) to check that you have indeed read the text thoroughly, (2) to deepen your understanding of the points that the teacher finds most important, (3) to challenge Hayward’s assumptions and conclusions.
Second part: linguistically inspired research questions, and the design, execution and analysis of an experiment on a speech corpus.

Lecture 1 30 Oct.	Kennismaking About how to fill any gaps in your knowledge of speech perception, speech production, transcription. Homework 1: read chapter 1, and make the assignments on it. Techniques: corpora, software, research question, the mean First we introduce a corpus and the analysis software. Then we introduce our first example research question (are there duration differences between the Dutch vowels /aː–ɪ–i/?). Then a statistical technique: computing the mean in four ways (by eye, by hand, with the Calculator, with a Praat script). Finally some programming techniques: expressions, variables, loops. Homework 2: extract the tokens by hand for the eight speakers of the IFA corpus, and compute the three average durations of /aː–ɪ–i/, each in a different way.
Lecture 2 1 Nov.	Book: introduction Discussion and grading of chapter 1 and homework 1. Demo of creating sounds by adding sine waves. Homework 3: read chapter 2 (sound waves and spectra), and make the assignments on it. As preparation a demo on adding harmonics. Technique: standard deviation First a discussion of homework 2. Then another statistical technique: compute the standard deviation in three ways (by hand, with the Calculator, with a Praat script). Homework 4: compute the three standard deviations of the durations of /aː–ɪ–i/, each in a different way.
Lecture 3 6 Nov.	Book: sound waves and spectra Discussion and grading of chapter 2 and homework 3. Homework 5: read chapter 3 (digital recording and spectrography), and make the assignments on it. Technique: sign test First a discussion of homework 4. Then a statistical technique: factoring out much of the variation between speakers: a test nearly by eye (sign test on paired data); computation of its statistical significance with `binomialQ` (with the Calculator and with a Praat script). Homework 6: compute whether /i/ is reliably longer than /ɪ/, and whether /aː/ is reliably longer than /i/, each in a different way.
Lecture 4 8 Nov.	Book: digital recording and spectrography Discussion and grading of chapter 3 and homework 5. Homework 7: read chapter 4 (sources and filters), and make the assignments on it. Technique: the size of a difference First a discussion of homework 6. Then a statistical technique: to report how big a difference between two things is, we compute the frequentist confidence interval of this difference with `invStudentQ` (with the Calculator and with a Praat script); if this interval does not include zero, we have found a reliable difference (Student’s t-test on paired data). Homework 8: compute how much longer /i/ could be than /ɪ/, and how much longer /aː/ could be than /i/, each in a different way.
Lecture 5 13 Nov.	Book: sources and filters Discussion and grading of chapter 4 and homework 7. Homework 9: read chapter 5 (perception models and inner ear), and make the assignments on it. Technique: reproducibility of your experiment First a discussion of homework 8. Then a new method for automating the analysis of the experiment: annotate corpus data with TextGrids in Praat. Homework 10: mark the beginnings and endings of the /aː–ɪ–i/ vowels in Praat (both replications), then write a Praat script to extract the results as a table.
Lecture 6 15 Nov.	Book: perception models and inner ear Discussion.
Lecture 7 20 Nov.	Book: perception models and inner ear Discussion and grading of chapter 5 and homework 9. Homework 11: read chapter 6 (vowels), and make the assignments on it. Technique: tables First a discussion of homework 10. Homework 12: from the vowel duration experiment you have a headered table of data that can be queried for statistics by hand in SPSS, Excel, or Praat. Read it into Praat and retrieve the statistics (mean, standard deviation, sign test, t-test, confidence interval).
Lecture 8 22 Nov.	Book: vowels Discussion and grading of chapter 6 and homework 11. Homework 13: read chapter 7 (consonants), and make the assignments on it. These include two paper-like (15-line) assignments (very important) on your ideas on these models. Technique: programming and t-test First a discussion of homework 12. Homework 14: how to write Praat scripts: automate the t-test.
Lecture 9 27 Nov.	Book: consonants Discussion and grading of chapter 7 and homework 13. Homework 15: read chapter 8.1 through 8.3.3 (phonation, larynx, articulation), and make the assignments on it. Techniques: programming, and graphical display of data First a discussion of homework 14. Then a graphical technique: plotting vowel spaces in Praat. Homework 16: measure the vowel space of one speaker of the IFA-corpus by hand, and use Praat’s history mechanism to draw it.
Lecture 10 29 Nov.	Book: phonation, larynx, articulation Discussion and grading of chapter 8.1 through 8.3.3 and homework 15. Homework 17: read chapter 8.3.4 through 8.6 (articulation, production models), and make the assignments on it. Technique: annotation First a discussion of homework 16. Homework 18: label all vowels of eight speakers of Dutch.
Lecture 11 4 Dec.	Book: articulation, production models Discussion and grading of chapter 8.3.4 through 8.6 and homework 17. Homework 19: read Weenink's chapter 7 (spectrum), and make the assignments on it. Technique: automated formant analysis First a discussion of homework 18. Then we introduce our second example linguistically-informed research question (are the auditory heights of front and back vowels correlated?) Homework 20: programming, and plotting the vowel spaces of all eight speakers of the IFA-corpus by adapting your existing Praat script.
Lecture 12 6 Dec.	Spectrum Discussion and grading of homework 19. Homework 21: read Weenink's section A12 on digital filters, and make the assignments on it. Technique: programming and pooling First a discussion of homework 20. Homework 22: correlation.
Lecture 13 11 Dec.	Convolution with digital filters Discussion and grading of homework 21. Homework 23: the source-filter model seen in terms of convolution. Technique: correlations First a discussion of homework 22. Homework 24: use and misuse of statistical methods.
Lecture 14 13 Dec.	Formants as convolution Discussion and grading of homework 23 and 24. Preparation for the final test Homework 25: read Hayward's Appendix.
xx Dec.	Open-book test on Hayward’s book.

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This page is: http://www.fon.hum.uva.nl/paul/expphon/, by Paul Boersma, 30 October 2013