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Marketing Research

Marketing Research. Aaker, Kumar, Day Ninth Edition Instructor’s Presentation Slides. Chapter Thirteen. Experimentation. Experiments. Studies in which conditions are controlled so that one or more independent variable(s) can be manipulated to test a hypothesis about a dependent variable.

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Marketing Research

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  1. Marketing Research Aaker, Kumar, Day Ninth Edition Instructor’s Presentation Slides

  2. Chapter Thirteen Experimentation http://www.drvkumar.com/mr9/

  3. Experiments • Studies in which conditions are controlled so that one or more independent variable(s) can be manipulated to test a hypothesis about a dependent variable http://www.drvkumar.com/mr9/

  4. Experimental vs. Descriptive Research • Experimental Research • Manipulation of treatment variable (x), followed by observation of response variable (y) • Experiment must be designed to control for other variables to establish causal relationship • Descriptive Research • Descriptive research provides a snapshot of some aspect of market environment at a specific point in time • No hint of a causal insight to be obtained from descriptive data http://www.drvkumar.com/mr9/

  5. What Constitutes Causality? • A change in one variable will produce a change in another • Concept of a precondition influencing a variable of interest • Time Sequence • Lack of association suggests absence of causation Attitude Behavior http://www.drvkumar.com/mr9/

  6. Direction of Causation Issue Determining the direction of causation • Draw on logic and previous theory • Whether one of the variables is relatively fixed and unalterable • If a time lag exists between cause and effect then the causal variable should have a positive association with the effect variable lagged in time http://www.drvkumar.com/mr9/

  7. Conditions for Valid Causal Inference • Condition of concomitant variation • Evidence that a strong association exists between an action and an observed outcome • Condition of time order of occurrence • Evidence that the action preceded the outcome • Absence of competing causal explanations • Evidence that there is no strong competing explanation for the relationship – that a high level of internal validity exists http://www.drvkumar.com/mr9/

  8. Issues in Experimental Research • What type of experimental design should be used? • Should the experiment be performed in a "laboratory" setting or in the "field"? • What are the internal and external threats to the validity of the experiment? http://www.drvkumar.com/mr9/

  9. Basic Symbols and Notations O a formal observation or measurement Xexposureof test units in the study to the experimental manipulation or treatment EG an experimental group of test units exposed to the experimental treatment CG a control group of test units participating in the experiment but not exposed to the experimental treatment Rrandom assignment of test units and experimental treatments to groups. Randomization increases reliability Mboth the experimental group and the control group are matched on the basis of some relevant characteristics http://www.drvkumar.com/mr9/

  10. Types of Experimental Designs Classical • Considers only one treatment level of an independent variable at a time Statistical • Allows for examining the impact of different treatment levels of an independent variable and the impact of two or more independent variables http://www.drvkumar.com/mr9/

  11. Types of Experimental Designs • True Experimental Designs • Two-group, Before-After Design • Two group, After-Only Design • Solomon Four Group Design • Pre experimental Designs • One-group, After-Only Design • One group, Before-After Design • Nonmatched Control Group Design • Matched Control Group Design • Quasi-Experimental Designs • Time Series Design • Continuous Panel Design Classical Designs Completely Randomized Design Statistical Designs Randomized-Block Design Experimental Designs Latin Square Design Factorial Design http://www.drvkumar.com/mr9/

  12. Classical Designs - Pre-experimental Designs One Group, After-only Design • Apply the experimental treatment to a subject or group and measure the results EG X O Leaves open the possibility that the results could be explained by events external to the design http://www.drvkumar.com/mr9/

  13. Pre-experimental Designs (Contd.) Nonmatched Control Group Deign • Introduce a control group to control for history and maturation EG X O1 - - - - - - - - - CG O2 http://www.drvkumar.com/mr9/

  14. Pre-experimental Designs (Contd.) Matched Control Group Design • Matches experimental and control groups to reduce selection bias EG M X O1 - - - - - - - - - - - CG M O2 http://www.drvkumar.com/mr9/

  15. Pre-experimental Designs (Contd.) One-group, Before - After Design • Improve control by adding before measure EG O1 X O2 Before measure adds sensitivity by adding another method to control for confounding variables http://www.drvkumar.com/mr9/

  16. Pre-experimental Designs (Contd.) Threats to Experiment Validity in One-group, Before - After Design • Before Measure Effect • May alert respondents to the fact that they are being studied • Results in more socially desirable behavior • Mortality Effect • Some subjects may stop participating in the experiment • Instrumentation Effect • Results from a change in the measuring instrument http://www.drvkumar.com/mr9/

  17. Classical Designs – True Experimental Designs True experimental designs adopt random assignment procedure and use one or more control groups Random Assignment • For any given assignment to a treatment, every member of the universe has an equal probability of being chosen http://www.drvkumar.com/mr9/

  18. True Experimental Designs (Contd.) Two Group, After-only Design • Randomization can match test and control groups on all dimensions simultaneously, given a sufficient sample size EG R X O1 - - - - - - - - - - - - - - CG R O2 There is no interaction effect of testing as there are no pretest requirements http://www.drvkumar.com/mr9/

  19. True Experimental Designs (Contd.) Two-group, Before-after Design • Adds a control group to one-group, before - after design • Helps control for history and maturation • Controls for reactive effect of O1 and O2 EG R O1 X O2 - - - - - - - - - - - - - - CG R O3 O4 http://www.drvkumar.com/mr9/

  20. True Experimental Designs (Contd.) Solomon Four - Group Design EG R O1 X O2 ------------------------------- CG R O3 O4 ------------------------------ EG R X O5 ------------------------------- CG R O6 • This design is often prohibitively expensive • Provides power to control for before measure effect of O1 on both X and O2 http://www.drvkumar.com/mr9/

  21. Quasi-Experimental Designs • Offer some degree of control but there is no random assignment of variables • Provide more measurements and more information than pre-experimental design Time Series Designs • Series of measurements are employed during which an experimental treatment occurs EG O1 O2 O3 O4 X O5 O6 O7 O8 http://www.drvkumar.com/mr9/

  22. Time Series Designs http://www.drvkumar.com/mr9/

  23. Quasi-experimental Designs (Contd.) Trend Studies • Measures over time come from succession of separate random samples from the same population Continuous Panel Studies • Collect a series of measurements on the same sample of test units over an extended period of time http://www.drvkumar.com/mr9/

  24. Statistical Designs Completely Randomized Design • Any number of treatments can be assigned to test units on a random basis EG1 R X1 O1 - - - - - - - - - - - - - - - - EG2 R X2 O2 - - - - - - - - - - - - - - - - EG3 R X3 O3 http://www.drvkumar.com/mr9/

  25. Statistical Designs (Contd.) Randomized Block Design • Employs the randomization process for all variables • Matching ensures that there are no differences between test samples on matched variables • Matching and randomization are combined in randomized block design EG1 R X O1 - - - - - - - - - - - - - - - - CG1 R O2 ------------------------------- EG2 R X O3 - - - - - - - - - - - - - - - - CG2 R O4 http://www.drvkumar.com/mr9/

  26. Statistical Designs (Contd.) Latin Square Design • Reduces number of groups involved when interaction between the treatment levels and control variables are unimportant • Requires same number of rows, columns, and treatment levels • Cannot be used to determine interaction effects http://www.drvkumar.com/mr9/

  27. Latin Square Design - Example Stores http://www.drvkumar.com/mr9/

  28. Statistical Designs (Contd.) Factorial Designs • Two or more experimental variables are considered simultaneously • Each combination of the experimental treatment levels applies to randomly selected groups EG1 R X1 (Hi Adv, Hi Price) O1 n 6 ........................................................................ EG2 R X2 (Hi Adv, Low Price) O2 n 6 ........................................................................ EG3 R X3 (Low Adv, Hi Price) O3 n 6 ........................................................................ EG4 R X4 (Low Adv, Low Price) O4 n 6 ........................................................................ EG5 R X5 (No Adv, Hi Price) O5 n 6 ........................................................................ EG6 R X6 (No Adv, Low Price) O3 n 6 • Provides the ability to determine interactive effects of pairs of experimental variables and the main effect http://www.drvkumar.com/mr9/

  29. Interactive Effects http://www.drvkumar.com/mr9/

  30. Laboratory Experiments • Experiments in which the experimental treatment is introduced in an artificial or laboratory setting • Tend to be artificial • Testing effect exists as respondents are aware of being in a test and may not respond naturally • Results may not have external validity • Least costly and allow experimenter greater control over the experiment • Alternative explanations of results are reduced, increasing internal validity http://www.drvkumar.com/mr9/

  31. Field Experiments • Research study in which one or more independent variables are manipulated by the experimenter under carefully controlled conditions as the situation will permit • Experimental treatment or intervention introduced in a completely natural setting • Response tends to be natural • Tend to have much greater external validity • Difficult to control • Competing explanations for results exist http://www.drvkumar.com/mr9/

  32. Threats to Experimental Validity Threats to Internal Validity • History • Maturation • Testing • Instrumentation • Statistical Regression • Selection Bias • Mortality • Selection - Maturation Interaction http://www.drvkumar.com/mr9/

  33. Threats to Experimental Validity (Contd.) Threats to External Validity • Reactive or interaction effect of testing • Interaction effect of selection bias and experimental variable • Reactive effects of experimental arrangements • Multiple treatment interference http://www.drvkumar.com/mr9/

  34. Guidelines for Conducting Experimental Research • Recognition of and statement of the problem - should be clear and generally acceptable • Choice of factors and levels – considering control and measurement • Selection of the response variable - must provide useful information about process under study • Choice of experimental design – considering sample size, Selection of suitable run order for experimental trials, determination of whether or not blocking or other randomization restrictions are involved • Performing the experiment – monitor carefully to avoid errors • Data Analysis – use statistical methods • Conclusion and Recommendations – draw practical conclusions and recommend a course of action http://www.drvkumar.com/mr9/

  35. Limitations of Experiments • Cost Involved • Time Considerations • Security • Field experiment exposes marketing program in the marketplace • Difficult to hide from competitors http://www.drvkumar.com/mr9/

  36. Limitations of Experiments (Contd.) • Implementation Problems • Difficult to gain cooperation within the organization • Contamination may occur in experiments involving market areas due to inability to confine the treatment to designated experimental area • Variability in behavior across test units can be so large that it is difficult to detect experimental effects http://www.drvkumar.com/mr9/

  37. Uncertain Persistency of Results Causes: • High rates of technological, economic, or social change in the market environment • Aggressive competitive behavior http://www.drvkumar.com/mr9/

  38. Simulated Test Marketing • To overcome limitations posed by experiments such as test marketing in terms of cost, time involved and sabotage or imitation by competition • Enables firms to screen new ideas during the early phases of development and channel resources to maximize the potential for success • Widely used by the packaged goods industry as an aid for effective business planning • Examples of companies involved in STM research - BASES, ASSESSOR and Yankelovich. http://www.drvkumar.com/mr9/

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