Methodology tutorial - qualitative data analysis: Difference between revisions

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Qualitative data analysis

This is part of the methodology tutorial (see its table of contents).

Introduction: classify, code and index

In short qualitative data analysis usually implies to related and iterative steps. See Methodology tutorial - theory-finding research designs for the general principle.

(1) Data needs to be coded and indexed so that you can find it for data analysis. More particularly:

• Information coding allows to identify variables and values, therefore allows for systematic analysis of data (and therefore reliability)
• ensures enhanced construction validity, i.e. that you look at things that will allow you to measure concept

(2) You then can do visualizations, matrices, grammars, etc.

(3) Interpret these

Before we start

Keep your documents and ideas safe !

Write memos (conservation of your thoughts). It is useful to write short memos (vignettes) when an interesting idea pops up, when you looked at something and want to remember your thoughts

Write contact sheets to allow remembering and finding things. After each contact (telephone, interviews, observations, etc.), make a short data sheet:

• Indexed by a clear filename or tag on paper, e.g. CONTACT_senteni_2005_3_25.doc
• type of contact, date, place, and a link to the interview notes, transcripts.
• principal topics discussed and research variables addressed (or pointer to the

interview sheet)

• initial interpretative remarks, new speculations, things to discuss next time

Index your interview notes:

• Put your transcription (or tapes) in a safe place
• Assign a code to each "text", e.g. INT-1 or INTERVIEW_senteni_3_28-1
• You also may insert the contact sheet (see above)
• Number the pages if you take notes manually

Codes and categories

A code is a “label” to tag a variable (concept) and/or a value found in a "text"

Basics

1. A code is assigned to each (sub)category you work on
   • In other words: you must identify variable names
2. In addition, you can for each code assign a set of possible values (e.g.: “positive”/”neutral/”negative)
3. You then will systematically scan all your texts (documents, interview transcripts, dialogue captures, etc.) and tag all occurrences of variables.
4. Three very different coding strategies exist as we shall see later:
   • Code-book creation according to theory
   • Coding by induction (according to “grounded theory”)
   • Coding by ontological categories

Benefit of coding

• Coding will allow you to find all informations regarding variables of interest to your

research

• Reliability will be improved

The procedure with a picture

Technical Aspects

• The safest way to code is to use some specialized software
  • e.g. Atlas or Nvivo (NuDist),
  • however, this takes a lot of time !
• For a smaller piece (e.g. a master thesis), we suggest to simply tag the text on paper
  • you can make a reduced photocopy of the texts to gain some space in the margins
  • overline or circle the text elements you can match to a variable
  • make sure to distinguish between codes and other marks you may leave.
• Don’t use "flat" and long code-books, introduce hierarchy (according to dimensions identified)
• Each code should be short but also mnemonic (optimize)
  • e.g. to code according to a schema “principal category” - “sub-category” (“value”) use a code like:

CE-CLIM(+)

instead of:

external_context -climate (positive)

• Don’t start coding before you have good idea on your coding strategy !
  • either your code book is determined by you research questions and associated theories, frameworks, analysis grids
  • or you really learn how to use an inductive strategy like "grounded theory".

Code-book creation and management

Code-book creation according to theory

The list of variables (and their codes), is defined through theoretical reasoning, e.g.

• analytical frameworks, analysis grids
• concepts found in the list of research questions and/or hypothesis

Example from an innovation study (about 100 codes):

Coding by induction (according to “grounded theory”)

The principle is the following one:

• The researcher starts by coding a small data set and then increases the sample in function of emerging theoretical questions
• Categories (codes) can be revised at any time

Starting point = 4 big abstract observation categories:

• conditions (causes of a perceived phenomenon)
• interactions between actors
• strategies and tactics used by actors
• consequences of actions

(... many more details: to use this approach you really must document yourself)

Coding by ontological categories

Example:

• This is a compromise between “grounded theory” and “theory driven” approaches

Pattern codes

Some researchers also code patterns (relationships). Simple encoding (above) breaks data down to atoms, categories)

“ pattern coding ” identifies relationships between atoms.

The ultimate goal is to detect (and code) regularities, but also variations and singularities.

Some suggested operations:

1. Detection of co-presence between two values of two variables
   • E.g. people in favor of a new technology (e.g. ICT in the classroom) have a tendency to use it.
2. Detection of exceptions
   • e.g. technology-friendly teachers who don’t use it in the classroom
   • In this case you may introduce new variable to explain the exception, e.g. the attitude of the superior., of the group culture, the administration, etc.
   • Exceptions also may provoke a change of analysis level (e.g. from individual to organization)

Attention: a co-presence does not prove causality

Descriptive matrices and graphics

Qualitative analysis attempts to put structure to data (as in exploratory quantitative techniques)

In short: Analysis = visualization

There exist 2 popular types of analysis:

1. A matrix is a tabulation engaging at least one variable, e.g.
   • Tabulations of central variables by case (equivalent to simple descriptive statistics like histograms)
   • Crosstabulations allowing to analyze how 2 variables interact
2. Graphs ( networks ) allow to visualize links:
   • temporal links between events
   • causal links between several variables
   • etc.

Some advice

• When you use these techniques always keep a link to the source (coded data)
• Try to fit each matrix or graph on a single page (or make sure that you can print things made by computer on a A3 pages)
• you have to favor synthetic vision, but still preserve enough detail to make your artifact interpretable
• Consult specialized manuals e.g. Miles & Huberman, 1994 for recipes or get inspirations from qualitative research in the same domain

The “context chart”,Miles & Huberman (1994:102)

This technique allows to visualize relations and information flows between rôles and groups

Example - Work flow for a "new pedagogies" program at some university

There exist codified "languages" for this type of analysis, e.g. UML or OSSAD

Once you clearly identifed and clarified formal relations, you can use the graph to make annotations (like below)

Check-lists, Miles & Huberman (1994:105)

File:Book-research-design-213.png Usage: Detailed summary for an analysis of an important variable

Example: “external support is important for succeeding a reform project

• such a table displays various dimensions of and important variable (external support),

e.g. in the example = left column

• in the other columns we insert summarized facts as reported by different roles.
• Question: Imagine how you would build such a grid to summarize teacher’s, student’s and

assistant’s opinion about technical support for an e-learning platform

Chronological tables Miles & Huberman (1994:110)

• Can summarize a studied object’s most important events in time

Task assignments for a blended project-oriented class

• This type of table is useful to identify important events.
• You can add other information, e.g. tools used in this example

Matrices for roles (function in an organization or program)

Miles & Huberman (1994:124)

Crossing social roles with one or more variables, abstract example (also see next page):

Crossing roles with roles

s

Example: Evaluation of the implementation of a help desk software

Crossing between roles to visualize relations:

Techniques to hunt correlations

Matrices ordered according to concepts (variables)

Clusters (co-variances of variables, case typologies)

• An idea that certain values should "go together": Hunt co-occurrences in cells
• E.g.: “Can we observe a correlation between expressed needs for support and

expressed needs for training for a new collaborative platform (data from teachers’s interviews)?

• This table shows e.g. that nedd for support and need for training seem to go together,

e.g. cases 1,3,5 have association of "important", cases 2 and 4 have association of "not important".

• See next page how we can summarize this sort of information in a crosstab

Co-variance expressed in a corresponding crosstab:

• .... we can observer a correlation here: "blue cells" (symmetry) is stronger than

"magenta"!

• check with the data on last slide

Example typology with the same data:

• we can observe emergence of 3 types to which we assign "labels"
• Note: for more than 3 variables use a cluster analysis program

Additional example

The table shows co-occurrence between values of 2 variables. The idea is to find out what effect different types of pressure have on ICT strategies adopted by a school.

Recall: Interpretation of crosstabulation

Procedure

• calculate the % for each value of the independent variable
  • Note: this can be either the line or the column depending on how you orient your table
• compute the % in the other direction
• We would like to estimate the probability that a given value of the independent

(explaining) variable entails a given value of the dependent (explained) variable

Interpretation: “... if students explicitly complain, the tutor will react more strongly and engage in more helpful acitities.”

• See: quantitative data analysis.

Typology and causality graphs

Typology graphs

• Display attributes of types in a tree-based manner

=== Perception of a new program by different implementation agencies (e.g. schools) and its actors (e.g. teachers) ===

File:Book-research-design-214.png

Subjective causality graphs

File:Book-research-design-215.png

• Cognitive maps à la “operational coding”, AXELROD, 1976
• Allow to compute outcomes of reasoning chains
• Example: Teacher talking about active pedagogies, ICT connections, Forums

File:Book-research-design-216.png