Design of Experiments

Quick Info

Design of experiments is a structured plan for analyzing correlations. The relationships of many influencing factors on a result are examined in order to obtain the best setting of inputs.
In statistical design of experiments, results are not simply evaluated, but an experimental plan is drawn up, which is carried out and evaluated in practice. The experimental design can then be optimized based on the findings. This means that often only very few experiments are necessary compared to other methods in order to obtain the same or even more findings.

Duration on request

Design of Experiments - 1

Dates on request

Design of Experiments - 3
Design of Experiments - 5

Contents

● Introduction to DOE

● Target size, factor & levels

● Set up experimental design

● Interactions

● Design of experiments analysis

● Significance, p-value

● Target variable optimization

● Max. & min. problem

● Full factorial & partial factorial

● Resolution (resolution)

● Blending of terms

● Replications

● Effect, selectivity

● Reduction of the model

● Residual diagrams

● Central point

● Check linearity

● Block formation

● Overfitting

● Randomize

Key information

Design of Experiments (DOE) is a systematic method that is used in various areas such as research, development and production. It enables the planning, execution and analysis of experiments, whereby the effects of several factors on one or more target variables can be determined simultaneously.

By using DOE, you can understand complex relationships in a system by systematically investigating different factors and their interactions. The main objective of DOE is to identify significant influencing factors and to find optimal conditions for desired results. By varying different parameters and analyzing their impact on the outcome, organizations can make decisions to improve processes.

History

The foundations of DOE were laid by Sir Ronald A. Fisher in the 1920s. Fisher developed the principles of experimental design and statistical analysis to make agricultural research more efficient. Since then, DOE has established itself as an indispensable tool in many scientific and engineering disciplines.

Usage

DOE is widely used in product development, process optimization and quality assurance across various industries, including pharmaceuticals, chemicals, manufacturing and biotechnology. It is used to increase process efficiency, reduce costs and improve product quality.

Benefit

Risks

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