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Teaching Visual Analysis of Time Series Data

Published online by Cambridge University Press:  16 June 2009

Ian A. James ,
Paul S. Smith  and
Derek Milne
Ian A. James
Affiliation:
Newcastle City Health NHS Trust
Paul S. Smith
Affiliation:
Northumberland Clinical Psychology Service
Derek Milne
Affiliation:
University of Newcastle upon Tyne
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Extract

Visual analysis, or “eyeballing”, of single subject (N=l) data is the commonest technique for analysing time series data. The present study examined firstly, psychologists' abilities to determine significant change between baseline (A) and therapeutic (B) phases, and secondly, the decision making process in relation to the visual components of such graphs. Thirdly, it looked at the effect that a training programme had on psychologists' abilities to identify significant A−B change. The results revealed that the participants were poor at identifying significant effects from non-significant changes. In particular, the study found a high rate of false alarms (Type 1 errors), and a low rate of misses (Type 2 errors), i.e. high sensitivity but poor specificity. The only visual components to significantly alter decisions were the degree of serial dependency and the mean shift component. The teaching influenced the participants' judgements. In general, participants became more conservative, but there was limited evidence of a significant improvement in their judgements following the teaching.

Type
Research Article
Information
Behavioural and Cognitive Psychotherapy , Volume 24 , Issue 3 , July 1996 , pp. 247 - 261
Copyright
Copyright © British Association for Behavioural and Cognitive Psychotherapies 1996

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References

Baeb, D. (1977). Perhaps it would be better not to know everything. Journal of Applied Behaviour Analysis 10, 167172.Google Scholar
Ballard, K. (1983). The visual analysis of time series data: issues affecting the assessment of behavioural interventions. New Zealand Journal of Psychology 12, 6973.Google Scholar
Bloom, M and Fischer, J. (1982). Evaluating practice: guidelines for the accountable professional. Englewood Cliffs, NJ: Prentice Hall.Google Scholar
Crosbie, J. (1993). Interrupted time-series analysis with brief single-subject data. Journal of Consulting and Clinical Psychology 61, 966974.CrossRefGoogle ScholarPubMed
Gottman, J. and Glass, G. (1978). Analysis of interrupted time-series experiments. In Kratochwill, T.R. (Ed). Single subject research: strategies for evaluating change (pp. 197235). New York: Academic Press.CrossRefGoogle Scholar
Hartman, D., Gottman, J., Jones, W., Gardener, W., Kazdin, A. and Vaught, R. (1980). Interrupted time-series analysis and its application to behavioural data. Journal of Applied Behavioural Analysis 13, 543559.CrossRefGoogle Scholar
Hersen, M. and Barlow, D.H. (1976). Single case experimental designs: strategies for studying behaviour change. New York: Pergamon.Google Scholar
Hogarth, R. (1980). Judgement and choice: the psychology of decision. Chichester: John Wiley.Google Scholar
Jones, R., Weinrott, N., and Vaught, S. (1978). Effects of serial dependency on the agreement between visual and statistical inference. Journal of Applied Behavioural Analysis 11, 277283.CrossRefGoogle ScholarPubMed
Kazdin, A. (1982). Single-case research designs. Methods for clinical and applied settings. New York: Oxford University Press.Google Scholar
Kahneman, D. and Tversky, A. (1972). Subjective probability: a judgement of representativeness. Cognitive Psychology 3, 430454.CrossRefGoogle Scholar
Knapp, T. (1983). Behaviour analyst's visual appraisal of behaviour change in graphic display. Behavioural Assessment 5, 155164.Google Scholar
Matyas, T. and Greenwood, K. (1990). Visual analysis of single-case time series: effects of variability, serial dependence, and magnitude of intervention effects. Journal of Applied Behaviour Analysis 3, 341351.CrossRefGoogle Scholar
Ottenbacher, K. (1990). Visual inspection single-subject data: an empirical analysis. Mental Retardation 28, 283290.Google ScholarPubMed
Parsonson, B. and Baer, D. (1978). The analysis and presentation of graphic data. In Kratochwill, T.R. (Eds). Single subject research: strategies for evaluating change. New York: Academic Press.Google Scholar
Slovic, P.Fischhoff, B. and Lichtenstein, S. (1977). Behavioural decision theory. Annual Review of Psychology 28, 139.CrossRefGoogle Scholar
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