Process Validation and Development 2016

Course "Risk Analysis and Design of Experiments (DOE) in Process Validation and Development" has been pre-approved by RAPS as eligible for up to 12 credits towards a participant's RAC recertification upon full completion.

Overview:

This course is designed to help scientists and engineers plan and conduct experiments and analyze the data to develop predictive models used to optimize processes and products and solve complex problems. DOE is an extremely efficient method to understand which variables (and interactions) affect key outcomes and allows the development of mathematical models used to optimize process and product performance. The models also provide an understanding of the impact of variability in controllable and uncontrollable factors on important responses. The concepts behind DOE are covered along with some effective types of screening experiments. Case studies will also be presented to illustrate the use of the methods.

This highly interactive course will allow participants the opportunity to practice applying DOE techniques with various data sets. The objective is to provide participants with the key tools and knowledge to be able to apply the methods effectively in their process and product development efforts.

Why should you attend?

• Plan and conduct experiments in an effective and efficient manner
• Apply good experimental practices when conducting studies
• Determine statistical significance of main and interaction effects
• Interpret significant main and interaction effects
• Develop predictive models to explain and optimize process/product behavior
• Check models for validity
• Utilize models for one or more responses to find optimal solutions
• Apply very efficient fractional factorial designs in screening experiments
• Apply response surface designs for optimization experiments
• Avoid common misapplications of DOE in practice

Who will benefit:

• Scientists
• Product and Process Engineers
• Design Engineers
• Quality Engineers
• Personnel involved in product development and validation
• Laboratory Personnel
• Manufacturing/Operations Personnel
• Process Improvement Personnel

Agenda:

Day 1 Schedule:

Lecture 1: Introduction to Experimental Design

• What is DOE?
• DOE vs. One-Factor-at-a-time studies
• Terminology, Definitions, and Concepts
• Sequential Experimentation
• When to use DOE
• Common Pitfalls in DOE

Lecture 2: A Guide to Experimentation (Methodology)

• Planning an Experiment
• Implementing an Experiment
• Analyzing an Experiment
• Case Studies

Lecture 3: Two Level Factorial Designs

• Design Matrix and Calculation Matrix
• Calculation of Main & Interaction Effects
• Graphing & Interpreting Effects
• Using Center Points

Lecture 4: Identifying Significant Effects

• Describing Insignificant Location Effects
• Determining which effects are statistically significant
• Analyzing Replicated and Non-replicated Designs

Day 2 Schedule:

Lecture 1: Developing Mathematical Models

• Developing First Order Models
• Residuals /Model Validation

Lecture 2: Developing Mathematical Models (cont'd)

• Solving Models for Possible Solutions
• Optimizing Response(s)

Lecture 3: Fractional Factorial Designs (Screening)

• Structure of the Designs
• Identifying an "Optimal" Fraction to Run
• Confounding/Aliasing
• Resolution
• Analysis of Fractional Factorial Experiments
• Other Designs

Lecture 4: Introduction to Response Surface Designs

• Central Composite Designs
• Box-Behnken Designs
• Optimizing several characteristics simultaneously
  

Quick Contact:

NetZealous DBA as GlobalCompliancePanel

Phone: 1-800-447-9407

Fax: 302-288-6884

Email: support@globalcompliancepanel.com               

Website: http://www.globalcompliancepanel.com

Registration Link - http://goo.gl/BZ01Py  

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