Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 11 Quasi-Experimental Designs ♣ ♣ Introduction   Nonequivalent Comparison Group Design   Time-Series Design   Regression Discontinuity Design.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Chapter 11 Quasi-Experimental Designs ♣ ♣ Introduction   Nonequivalent Comparison Group Design   Time-Series Design   Regression Discontinuity Design."— Presentation transcript:

1 Chapter 11 Quasi-Experimental Designs ♣ ♣ Introduction   Nonequivalent Comparison Group Design   Time-Series Design   Regression Discontinuity Design    Back to Brief Contents

2 11.0 Introduction Quasi-experimental design  Not meet all the requirements necessary for controlling the influence of EV (e.g.) random assignment  Not eliminate all threats to internal validity Threats to internal validity are ruled out by Tab 11.1 Tab 11.1  Identification and study of the threats  By including design elements as pretests or other control groups  By coherent pattern matching—making a complex prediction that few rival hypotheses can explain  Back to Chapter Contents

3 11.1 Nonequivalent Comparison Group Design pre-test treatment posttest Exper. Gp Y 1 X Y 2 Control Gp Y 1 Y 2 Fig 11.1 Fig 11.1 This is the most common quasi-experimental design Threats frequently reveal themselves in the outcome Example Fig 11.2 11.3 Fig 11.211.3 Possible biases Tab 11.2 Tab 11.2  Back to Chapter Contents

4 11.1 Nonequivalent Comparison Group Design Outcomes with Rival Hypotheses  Outcome I: First Increasing Treatment Effect  Outcome II: Increasing Treatment and Control Groups  Outcome III: Second Increasing Treatment Effect  Outcome IV: Crossover Effect Causal Inference from the Nonequivalent Comparison Group Design  Back to Chapter Contents

5 Outcome Patterns in the Nonequivalent Comparison Group Design I: Increasing treatment effect Fig 11.4 Fig 11.4 experimental control pretest posttest Threat: Selection-Maturation, Selection-History Eliminate Selection-Maturation : Matching Tab 11.3 Tab 11.3 Statistical Regression Techniques

6 II: Increasing treatment and control groups Fig 11.5Fig 11.5 experimental control pretest posttest  Selection-maturation is a threat

7 III: Increasing treatment effect Fig 11.6 Fig 11.6  Statistical regression is a threat  Selection-history is a threat control experimental pretest posttest

8 IV: Cross-over effect Fig 11.7 Fig 11.7  No possible rival hypotheses (history?) experimental control pretest posttest

9 11.1 Nonequivalent Comparison Group Design Outcomes with Rival Hypotheses Causal Inference from the Nonequivalent Comparison Group Design  Well designed and executed: ≈ randomized design  Well designed P assigned to group: not self-select Reduce pretest difference: matching  Back to Chapter Contents

10 11.2 Time-Series Design Interrupted Time-Series design Fig 11.8 Fig 11.8 Pre-response Treatment Post-response Y 1 Y 1 Y 1 Y 1 X Y 2 Y 2 Y 2 Y 2  Treatment effect revealed by a different pattern of pre and posttest responses  Back to Chapter Contents

11 11.2 Time-Series Design Interrupted Time-Series design  Lawler & Hackman (1969) IV: employee participation in develop and implementation of incentive plan DV: absenteeism Fig 11.9 Fig 11.9  Vernon, Bedford, & Wyatt (1924) IV: introduce a rest period DV: productivity (output) Fig 11.11 Fig 11.11  One-group pretest-posttest Fig 11.10 Fig 11.10  Back to Chapter Contents

12 11.2 Time-Series Design Interrupted Time-Series design  Possible patterns Fig 11.12 Fig 11.12  Statistical method Bayesian moving average model Tryon (1982), Crosbie (1993)  Threat: History (end)  Back to Chapter Contents

13 11.3 Regression Discontinuity Design Used to determine if the special treatment some individuals receive has any effect Characteristics of the design Fig 11.13 Fig 11.13  All individuals are pretested  Individuals who score above some cutoff score receive the treatment  All individuals are posttested  Discontinuity in the regression line indicates a treatment effect Fig 11.14 11.15 Fig 11.1411.15  Back to Chapter Contents

14 11.3 Regression Discontinuity Design Design Criteria that Must be Adhered to Tab 11.4 Tab 11.4  Assignment must be based on the cutoff score  Assignment cannot be a nominal variable as gender, or drug user or nonuser  Cutoff score should be at (or near) the mean  Experimenter should control group assignment  Relationship (linear, curvilinear, etc.) should be known  Participants must be from the same population  Back to Chapter Contents

15 11.3 Regression Discontinuity Design Primary Threat in the Regression Discontinuity Design  Contemporaneous history effect — This is possible but not plausible  Attrition: any design  This is the more powerful of the quasi-experimental designs (end)  Back to Chapter Contents

Download ppt "Chapter 11 Quasi-Experimental Designs ♣ ♣ Introduction   Nonequivalent Comparison Group Design   Time-Series Design   Regression Discontinuity Design."

Similar presentations

Chapter 10: Experimental Research Design This multimedia product and its contents are protected under copyright law. The following are prohibited by law:

Chapter 10: Experimental Research Design This multimedia product and its contents are protected under copyright law. The following are prohibited by law:
EMR 6550: Experimental and Quasi- Experimental Designs Dr. Chris L. S. Coryn Kristin A. Hobson Fall 2013.

EMR 6550: Experimental and Quasi- Experimental Designs Dr. Chris L. S. Coryn Kristin A. Hobson Fall 2013.
Chapter 11: Quasi- Experimental Designs This multimedia product and its contents are protected under copyright law. The following are prohibited by law:

Chapter 11: Quasi- Experimental Designs This multimedia product and its contents are protected under copyright law. The following are prohibited by law:
Experimental Design Internal Validation Experimental Design I. Definition of Experimental Design II. Simple Experimental Design III. Complex Experimental.

Experimental Design Internal Validation Experimental Design I. Definition of Experimental Design II. Simple Experimental Design III. Complex Experimental.
Experimental and Quasi-Experimental Research

Experimental and Quasi-Experimental Research
Defining Characteristics

Defining Characteristics
GROUP-LEVEL DESIGNS Chapter 9.

GROUP-LEVEL DESIGNS Chapter 9.
Experimental Research Designs

Experimental Research Designs
Correlation AND EXPERIMENTAL DESIGN

Correlation AND EXPERIMENTAL DESIGN
Wed Oct 29, 2003 Exams after class Mean(SD): 71.6(11.6)% Range: 44-95% Appointment Research day 1 week.

Wed Oct 29, 2003 Exams after class Mean(SD): 71.6(11.6)% Range: 44-95% Appointment Research day 1 week.
Experimental Design Week 9 Lecture 1.

Experimental Design Week 9 Lecture 1.
QUASI-EXPERIMENTS w Compare subjects in different conditions on a DV w Lacks one or more criteria for an experiment (cause, comparison, control) w Interpreted.

QUASI-EXPERIMENTS w Compare subjects in different conditions on a DV w Lacks one or more criteria for an experiment (cause, comparison, control) w Interpreted.
Reliability and Validity in Experimental Research ♣

Reliability and Validity in Experimental Research ♣
Quasi & Non-Experimental Designs

Quasi & Non-Experimental Designs
Chapter 9 Group-Level Research Designs. CHARACTERISTICS OF “IDEAL” EXPERIMENTS Controlling the Time Order of Variables Manipulating the Independent Variable.

Chapter 9 Group-Level Research Designs. CHARACTERISTICS OF “IDEAL” EXPERIMENTS Controlling the Time Order of Variables Manipulating the Independent Variable.
Chapter 10 Experimental Research Design ♣ ♣ Introduction   Research Designs with Threats to Internal Validity   Requirements of Experimental Research.

Chapter 10 Experimental Research Design ♣ ♣ Introduction   Research Designs with Threats to Internal Validity   Requirements of Experimental Research.
Types of Group Designs ____________ group design. The experiment compares groups that receive or _______________ the IV (control group) e.g., behavior.

Types of Group Designs ____________ group design. The experiment compares groups that receive or _______________ the IV (control group) e.g., behavior.
Group-Level Research Designs

Group-Level Research Designs
Questions What is the best way to avoid order effects while doing within subjects design? We talked about people becoming more depressed during a treatment.

Questions What is the best way to avoid order effects while doing within subjects design? We talked about people becoming more depressed during a treatment.
9 Quantitative Research Designs.

9 Quantitative Research Designs.

Similar presentations

Ads by Google