Time: 9:00 AM to 6:00 PM
Venue: Four Points By Sheraton San Diego Downtown
**Please note the registration will be closed 2 days (48 Hours) prior to the date of the seminar.
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.
Developing Mathematical Models
Developing Mathematical Models (cont'd)
Fractional Factorial Designs (Screening)
Introduction to Response Surface Designs
|1||2 Attendees||10% off|
|2||3 to 6 Attendees||20% off|
|3||7 to 10 Attendees||25% off|
|4||10+ Attendees||30% off|
To avail the above group discounts, all the participants should register by making a single payment
Call our representative TODAY on 1800 447 9407 to have your seats confirmed!
Steven Wachs has 25 years of wide-ranging industry experience in both technical and management positions. Steve has worked as a statistician at Ford Motor Company where he has extensive experience in the development of statistical models, reliability analysis, designed experimentation, and statistical process control.
Steve is currently a Principal Statistician at Integral Concepts, Inc. where he assists manufacturers in the application of statistical methods to reduce variation and improve quality and productivity. He also possesses expertise in the application of reliability methods to achieve robust and reliable products as well as estimate and reduce warranty.
M.A., Applied Statistics, University of Michigan, 2002
M.B.A, Katz Graduate School of Business, University of Pittsburgh, 1992
B.S., Mechanical Engineering, University of Michigan, 1986