Introduction to Experimental Design - PowerPoint PPT Presentation

1 / 15
About This Presentation
Title:

Introduction to Experimental Design

Description:

Graphs & descriptive statistics first - Hypothesis testing ... Extruding. Y = film thickness. Replication. Repetition. Process. Replication and Repetition ... – PowerPoint PPT presentation

Number of Views:31
Avg rating:3.0/5.0
Slides: 16
Provided by: cheserver
Category:

less

Transcript and Presenter's Notes

Title: Introduction to Experimental Design


1
Introduction to Experimental Design
  • Engineering Experimental Design
  • Winter 2003

2
Fundamentals of Experimentation
  • Clearly define the objective
  • What question are you trying to answer? How will
    you know you are finished?
  • Choose
  • the factor(s) of interest - The response to
    measure,
  • The data analysis techniques
  • Consider the design specifics
  • Range - Replication - Repetition
  • Randomization - Blocking - Risks
  • Collect the data
  • Record all conditions carefully. Will you
    understand this later?
  • Analyze the data
  • Graphs descriptive statistics first -
    Hypothesis testing regression next
  • Interpret the results
  • Draw conclusions - Make recommendations

3
Advantages of Designed Experiments
  • Enable data-based decisions
  • Create understanding of a process and how to
    control it
  • Take into account the inherent noise in the
    system
  • Provide maximum information for the amount of
    effort
  • Detect variable interactions

4
A Designed Experiment Should . . .
  • Meet the objective
  • Allow for simultaneous study of multiple factors
  • Cover the region of interest
  • Obtain maximum information for minimum cost
  • Be simple to analyze and interpret
  • Enable the experimenter to
  • Distinguish important from unimportant factors
  • Develop a mathematical model
  • Test for model adequacy
  • Estimate experimental uncertainty

5
Terminology
  • Controlled variables
  • Xs - Factors
  • Treatments - Independent variables
  • Outputs
  • Ys - Responses
  • Effects - Dependent variables

6
Types of Experimental Designs
  • Factorial
  • To distinguish important from unimportant Xs
  • To form limited models
  • Fractional factorial
  • To make a preliminary distinction between
    important and unimportant Xs
  • Response Surface
  • To determine the relationship between Ys and the
    important Xs (develop a model)
  • Regression is a way to analyze data from a
    response-surface experiment

7
Fundamentals of Experimentation
  • Clearly define the objective
  • What question are you trying to answer? How will
    you know you are finished?
  • Choose
  • the factor(s) of interest - The response to
    measure,
  • The data analysis techniques
  • Consider the design specifics
  • Range - Replication - Repetition
  • Randomization - Blocking - Risks
  • Collect the data
  • Record all conditions carefully. Will you
    understand this later?
  • Analyze the data
  • Graphs descriptive statistics first -
    Hypothesis testing regression next
  • Interpret the results
  • Draw conclusions - Make recommendations

8
Design Specifics - Range
  • Cover the region of interest
  • Are you in the right flow regime?
  • Wide enough to see the effect of interest
  • Will the real change in Y be bigger than the
    variability in Y?
  • For regression, remember that model parameters
    (adjustable parameters, slope intercept) can be
    determined more precisely from a wide range of
    data than from a narrow range

9
Design Specifics - Replication
  • Means coming back to the same conditions at a
    different time
  • Allows you to estimate the inherent noise in the
    process
  • Allows you to distinguish between a real response
    and normal variability
  • Allows you to estimate the overall uncertainty in
    the experiment

10
Design Specifics - Repetition
  • Provides an estimate of the variability within a
    given run
  • Measurement uncertainty
  • Variations in water pressure, temperature
  • Provides an opportunity to study the variability
    in Y for a given X

11
Repetition and Replication
12
Replication and Repetition
  • In practice, in an experimental situation, it can
    be difficult to achieve true replication.
  • Do you really want to spend 30 minutes twiddling
    the valves to get exactly the same flow rate you
    got yesterday?
  • How do you decide whether the current conditions
    are close enough to replication?
  • Consider uncertainty on flow rate.

13
Design Specifics - Randomization
  • An insurance policy
  • Helps ensure that the effects of unknown,
    unidentified, or uncontrolled variables do not
    bias our experiments
  • Helps ensure the validity of statistical
    assumptions

14
Design Specifics - Blocking
  • Allows you to see a difference in Y due to one X,
    in spite of a change in another X
  • How do you use blocking to see the effect of
    shell-side flow regime on overall heat transfer
    coefficient, in spite of the effect of tube-side
    flow regime on overall heat transfer coefficient?

15
Design Specifics - Risk
  • Not a part of statistics, but something to
    consider to avoid becoming a statistic
  • Potential danger to people
  • Potential danger to property
  • Potential danger to environment
Write a Comment
User Comments (0)
About PowerShow.com