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Getting the most out of interactive and developmental data

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Title: Getting the most out of interactive and developmental data


1
Getting the most out of interactive and
developmental data
  • Daniel Messinger
  • 5.2001

2
Basics
  • Know your phenomena
  • Watch the tapes
  • Know your data
  • Look at descriptives and frequencies
  • Look for patterns that you can see in individuals
    or dyads
  • Not just in the group as a whole

3
Topics
  • Types of codes and coding
  • Frequency, duration, and combined approaches
  • Agreement and reliability
  • Measures of association between two behaviors
  • Development

4
Coding
  • Types of codes
  • Objective vs. socially recognizable
  • Type of coding
  • Frequency, duration, combined approaches
  • Agreement/Reliability
  • Percent agreement, Cohens Kappa, intra-class
    correlation

5
Types of codes
  • Objectively describable codes
  • E.g., Facial Action Coding System
  • Socially recognizable codes
  • E.g., Emotionally positive moments
  • Measurement and analysis more geared to
    objectively describable but there is no
    qualitative difference between different types of
    codes

6
Type of coding
  • Duration
  • Frequency
  • Combined approaches
  • Agreement/Reliability
  • Agreeing on what we saw

7
Agreeing on what we saw
  • Agreement
  • Whether same thing was observed at the same time
  • The focus of percent agreement and Kappa
  • Reliability
  • Did we see the same number of things in a given
    interactive period
  • Summary measure of codes over session
  • It all depends on the research question

8
Duration
  • How long does behavior last
  • E.g., Total time smiling
  • Code onsets and offsets
  • Smile begins, smile ends
  • Or exclusive categories
  • Smile, neutral, smile

9
Duration
10
Agreement on duration
  • Agreement Total duration of time both coders
    indicated same event was occurring
  • Disagreement Total duration of time coders
    indicated different events were occurring
  • Its ok to collapse codes

11
Duration agreement statistics
  • Proportion agreement
  • Agreement / (Agreement Disagreement)
  • Observed agreement
  • Cohens Kappa
  • (Observed agreement Expected agreement) / (1
    Expected agreement)
  • Expected agreement
  • Sum of product of marginals
  • Bakeman Gottman

12
Frequency
  • How often does behavior occur
  • Code onsets only
  • Always express as onsets per unit of time
  • E.g., number of smiles per minute
  • You can calculate frequencies from duration codes
  • Just count the onsets
  • But onset and offset coding is more difficult
  • E.g., vocalizations

13
Frequency
14
Frequency agreement
  • Percent agreement
  • Number of times the same code is recorded by
    independent coders within a given time window
    (e.g., 2 seconds)
  • Divided by one half the total number of codes
  • No Kappa for frequency
  • There is no expected measure of agreement

15
Frequency and DurationPros and cons
  • Duration is a relatively stable measure of whats
    going on
  • But not how they occurred
  • E..g., Total gazing at mother
  • Frequency tells you about discrete activities
  • But not how long they lasted
  • E.g., number of speech acts
  • Mixed approaches

16
Mixed approaches
  • Duration of smiling in a given period of
    interaction initiated by infant
  • Duration in that its a total time measure
  • But frequency in that its onset of infant action
  • Calculate both types of agreement

17
Reliability (intra-class correlation)
  • Summary measure of codes over session
  • Variance attributable to differences between
    subjects expressed as a proportion of all
    variance
  • Including variance between coders want to
    minimize
  • Type of ANOVA
  • Better than a simple correlation

18
Measures of association between two behaviors
  • Group level analysis
  • Individual level analysis
  • Duration and frequency approaches

19
Example
  • Infant gaze direction
  • At mothers face or away
  • Mother smile
  • Yes or no
  • Coded continuously in time

20
SPSS (10.0)
  • VALUE LABELS m12
  • 1.00000000000000 "Mother Not Smiling"
  • 2.00000000000000 "Mother Smiling"

21
General duration variable
  • create
  • /leadweeKlead(week 1) /LEADSECsLEAD(SECS 1).
  • EXECUTE.
  • IF (weekleadweek) DurationLEADSECS-SECS.
  • IF SYSMIS(DUR) DUR0.
  • EXECUTE.

22
Analysis of entire group
  • Weight by duration, then . . .

23
Analysis of entire group
  • Doesnt tell you if any given infant/dyad shows
    the association
  • Or the strength of association for a given
    infant/dyad
  • Use when necessary
  • E.g. small amounts of data for individual
    infants/dyads

24
Analysis of individuals
  • Determine frequency and duration of variables
    for whole group
  • Then aggregate
  • By subject/participant for general analysis
  • By time period for developmental analyses
  • Construct variables
  • Analysis

25
Specific variable duration
  • How much time do infants spend gazing at mother
  • And away from mother
  • How much time do mothers spend smiling
  • And not smiling

26
Specific variable duration
  • IF (infgaze1) infgazeMDuration.
  • IF (infgaze2) infgazeADuration.
  • IF (momsmile1) M1Duration.
  • IF (momsmile2) M2Duration.
  • Execute.

27
Duration of two co-occurring behaviors
  • How long do infants gaze at mother when she is
    smiling?

28
Duration of two co-occurring behaviors
  • IF (infgaze1 momsmile1) GMM1Duration.
  • IF (infgaze1 momsmile2) GMM2Duration.
  • IF (infgaze2 momsmile1) GAM1Duration.
  • IF (infgaze2 momsmile2) GAM2Duration.
  • EXECUTE.

29
Combined duration and frequency approach
  • Duration of two co-occurring behaviors given that
    one has just occurred
  • How long do infants gaze at smiling mother having
    just gazed at her
  • Not when they were gazing and she smiled
  • Attention The following technique assumes a
    dataset created so that only the variables of
    interest (in this case, two variables of
    interest) exist and that cases (rows) exist only
    when one of these variables changes (or there is
    a new session).

30
Combined duration and frequency approach
  • CREATE
  • /momsml_1LAG(momsml 1) /infgaz_1LAG(infgaz 1).
  • IF (infgaz2 infgaz_12 momsml2)
    GAM2Fduration.
  • IF (infgaz1 infgaz_11 momsml2)
    GMM2Fduration.
  • IF (infgaz2 infgaz_12 momsml1)
    GAM1Fduration.
  • IF (infgaz1 infgaz_11 momsml1)
    GMM1Fduration.
  • EXECUTE.

31
Aggregate Summarizing data for analysis
  • Aggregate over subject for overall effects
  • Aggregate over subject and time period for
    developmental analyses

32
Aggregate creates new variables
33
Summarizes over time-linked cases
  • Summary measures
  • Number of cases for frequency
  • Sum of values for duration

34
Ouch!
  • AGGREGATE
  • /OUTFILE
  • /BREAKnewsub
  • / infgazm2 N(infgazem) /infgaza2 N(infgazea)
  • /gmm1_3 SUM(gmm1) /gmm2_3 SUM(gmm2) /gam1_3
    SUM(gam1) /gam2_3
  • SUM(gam2) /gam2f_2 N(gam2f) /gmm2f_2
    N(gmm2f) /gam1f_2 N(gam1f)
  • /gmm1f_2 N(gmm1f) /gam2f_3 SUM(gam2f)
    /gmm2f_3 SUM(gmm2f) /gam1f_3
  • SUM(gam1f) /gmm1f_3 SUM(gmm1f).

35
Voile
36
Constructing variables
  • New duration and frequency dependent measures are
    calculated per subject in new file
  • Same dependent measures will be calculated per
    time period within subject (in a different file)
    for developmental analyses

37
Creating durational proportions
  • Creating durational proportions
  • COMPUTE GMM2PGmm2_3/(GMM2_3GAM2_3).
  • Number of seconds of gazing at mother while
    mother is smiling divided by total time gazing at
    mother
  • Do the same for gazes at mother while mother is
    not smiling

38
Creating durational proportions
  • Creating durational proportions
  • COMPUTE GMM2PGmm2_3/M2_3.
  • Note M2_3 (total time mother is smiling) can be
    created during aggregation or computed as
    GMM2_3GAM2_3.
  • Number of seconds of gazing at mother while
    mother is smiling divided by total time gazing at
    mother
  • Do the same for gazes at mother while mother is
    not smiling
  • These variables are calculated for each subject
    in new aggregated file

39
Analyses, finally
40
Results
  • Look at results subject by subject by graphing

41
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42
Duration and frequency
  • Can tell you the same thing about an interaction
  • Or different things

43
Creating frequency per minute
  • Example
  • COMPUTE GAM2PM
  • (GAM2F_2/M2_3)60.
  • This is calculated for each subject in new
    aggregated file
  • Number of gazes away while mother is smiling
    divided by total time mother is smiling
  • per minute
  • Do the same for gazes away while mother is not
    smiling

44
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45
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46
Duration and frequency together
  • Infant gazes at mother, mother smiles, infant
    then gazes away
  • Combined (frequency and duration) approach might
    have shed light on this directly

47
Development Conceptual
  • How do individuals change over time?
  • Unit of analysis is individuals (or individual
    dyads) - singoli
  • Can developmental effects be seen in each
    individuals data?
  • Or in a significant proportion of each
    individuals data?
  • Keep it simple
  • General trends preferred over particular periods
  • Linear versus curvilinear effects

48
Development - Practical
  • Choices for developmental analyses
  • Hierarchical linear modeling
  • Individual growth (Linear and curvilinear models)
  • T-tests, binomial tests,
  • Graph individual and group data

49
Development - How to
  • Go back to the original file
  • Create a case for every week
  • Or other age category
  • E.g.
  • AGGREGATE
  • /OUTFILE
  • /BREAKnewsub WEEK
  • / infgazm2 N(infgazem) /infgaza2 N(infgazea)
    / etc.

50
Voile - Development
  • Each case now summarizes the variables of
    interest for a given age period for a given
    subject
  • Create summary proportional duration and
    frequency per minute variables as before

51
Individual growth modeling
  • Conduct developmental analyses within individuals
  • Regression analyses (within individuals)
  • Typically linear effects

52
Analysis by individual
53
Analysis techniques
  • Is mean slope different from 0
  • T-test
  • Data can be copied from regression output to make
    a new developmental data file

54
Graphing and binomial tests
  • Do a significant proportion of subjects show an
    increase (or decrease) with age?
  • Binomial test (Hays)
  • Consistency within variability

55
Consistencyacross individuals
56
Hierarchical linear modeling
  • Age is nested within individual
  • Calculates mean slope for group
  • T-test
  • Estimates variability around that mean
  • Chi-square
  • Assumes normal distribution of slope parameters
  • Should have many subjects
  • Level 2 units

57
Specialized programs WHLM
Ask for OLE output for each subject
  • 1 0.54269 -0.02004
  • 2 0.41946 -0.01507
  • 3 0.50880 -0.02033
  • 4 0.45630 -0.01529
  • 5 0.99627 -0.04153
  • 6 0.67704 -0.02057
  • 7 0.34434 -0.00026
  • 8 0.73655 -0.02059
  • 9 0.38579 -0.00123
  • 10 0.51995 -0.01611
  • Need to get your data into the program.
  • Can be tricky

58
Table Gaze away
59
Review
  • Types of codes and coding
  • Frequency, duration, and combined approaches
  • Agreement and reliability
  • Measures of association between two behaviors
  • Complete picture may involve both duration and
    frequency (or combined approaches)
  • Development
  • Occurs and should be studied as it occurs in
    individuals (or individual dyads)

60
Duchenne Smiles (M 20.95)
40.3
59.8
53.7
46.3
22.7
27.5
30.2
20.5
Non-Duchenne Smiles (M 39.29)
Non-Smiles (M 39.76)
77.3
79.5
61
Transitional probabilities
  • Likelihood of one behavior following another
  • Typically within a modality of actiojn
  • One code following another within a category
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