Type | Wholly-owned |
---|---|
Industry | Statistical software |
Founded | 1982 |
Founder | Patrick Whitcomb |
Headquarters | , United States (U.S.) |
Key people |
|
Products | Stat-Ease 360 and Design-Expert software for design of experiments |
Services |
|
Number of employees | 11 |
Parent | Beginning July 2019: Tecplot |
Website | statease |
Stat-Ease, Inc. is a privately held company producing statistical software in Minneapolis, Minnesota, USA, founded by Patrick Whitcomb in 1982. The company has 11 employees and provides software packages for engineers and scientists using design of experiments (DOE) methods for optimizing development of products and processes. It also provides DOE training and consulting services.
History
Stat-Ease was founded by Whitcomb while at General Mills in 1982. He later brought in two of his General Mills colleagues. The company sold its first software in June 1985. Sales took off in 1987 when the software was described as "incredibly easy to use" in a review of DOE software.[1]
In 1988, the company released its first version of Design-Expert software, which provided the tools for response surface methods (RSM) for process optimization. This package complemented Design-Ease, which handled factorial designs, and also provided statistical tools for optimizing mixtures in the chemical process industries. In 1996, the firm added the features of Design-Ease into Design-Expert version 5 and translated it from DOS to Windows.[2]
In 1996, Forbes magazine said the "new mantra" for process improvement was multivariate testing (MVT) and added, "A Minneapolis software firm, Stat-Ease, sells most of the software these MVT types use."[3]
Felix Grant, reviewing Design-Expert version 7.1.3 in Scientific Computing World magazine wrote, "In a mature, well-established product which dominates its market, upgrades should be expected to reflect developing practice and display evolutionary growth rather than piling on attention-seeking gimmicks; and so it is here.... Core functions have been extended usefully... the design editor in Design-Expert (DX) has long been a strong point, providing a central cockpit from which to intuitively refine and test most aspects, but various new control features have now been added to the package, small in themselves but significantly enhancing productive control."[4]
Design-Ease was discontinued in 2018 with the release of version 11,[5] which was also the first version of Design-Expert to be available for macOS. Then, in 2021, Stat-Ease debuted an advanced product, Stat-Ease 360. In addition to the features of Design-Expert, it included space-filling designs, Gaussian process modeling, and add-on Python scripting at launch.[6]
Stat-Ease founder Whitcomb retired in 2019, shortly before the acquisition of Stat-Ease by Constellation Software in July 2020 via their subsidiaries Vela and Tecplot.
Statistical design of experiments
Minimum-Run Resolution IV and Minimum-Run Resolution V experimental designs, a proprietary time- and money-saving design type, were invented by Pat Whitcomb and Gary Oehlert in 2004.[7] Minimum-run resolution IV ("MR4") factorial designs estimate all main effects, clear of two-factor or higher interactions, in a minimum of experimental runs. MR4 designs work well for factor screening. Minimum-run resolution V ("MR5") factorial designs estimate all main effects and two-factor interactions in a minimum of experimental runs. MR5 designs are typically done after screening to a vital few factors, which then need to be studied in more depth in case they interact.[8]
Whitcomb and Oehlert won the Shewell award in 2008 for invention of the half-normal plot of effects for general factorials.[9]
They also developed statistical tools in 2008 to calculate power for a broad range of experimental designs and precision as a power substitute via fraction of design space (FDS) for response surface methods (RSM) and mixture design.[10]
Whitcomb co-authored the non-academic Simplified textbook series on DOE with Mark Anderson: DOE Simplified, RSM Simplified, and Formulation Simplified (with Dr. Martin Bezener as a co-author).[11]
Applications
Alberto-Culver developed a new line of scrubs using Design-Expert software from Stat-Ease.[12]
Stat-Ease was used by Los Alamos National Laboratory researchers in designing a set of experiments designed to demonstrate the application of model validation techniques to a structural dynamics problem.[13]
Invitrogen used Stat-Ease Design-Expert software to optimize a cell culture bioproduction system. The researcher wrote, "This experiment demonstrates how a robotically controlled microbioreactor system can be combined with DoE methods to optimize cell-culture media and feeding strategies. The new process is rich in information and provides a solid understanding of the most influential factors affecting performance of specific cell lines."[14]
The United States Environmental Protection Agency (EPA) evaluated the physicochemical properties of nine surfactants used in the remediation of perchloroethylene (PCE) in aqueous solutions using a response surface quadratic design model of experiment. Design-Expert software was used to generate the experimental design and perform the analysis. The research provided predictive models for alterations in the physiochemical properties of pore fluid to surfactant enhanced acquifer remediation of PCE.[15]
Researchers investigated the possibility of producing poly-3-hydroxybutyrate (P(3HB)) polyester using corn syrup. The concentrations of the different ingredients were optimized using DOE performed with Design-Expert software.[16]
Researchers at the University of Nottingham demonstrated that the DNA extracted from both green and roasted coffee beans could be used in a restriction fragment length polymorphism (RFLP) based analysis to differentiate between Arabica and Robusta types of coffee. Design-Expert software was used for design of experiments comparing and optimizing yields using a variety of commercial DNA extraction kits.[17]
References
- ↑ Nachtsheim (July 1987). "Tools for Computer Aided Experiments". Journal of Quality Technology. 19 (3): 132-160. doi:10.1080/00224065.1987.11979054.
- ↑ Li He (July 17, 2003). "Design of Experiments Software". The Chemical Information Network.
- ↑ Rita Koselka (March 11, 1996). "The New Mantra: MVT". Forbes.
- ↑ Felix Grant (October 2007). "Design Expert 7.1". Scientific Computing World.
- ↑ Stat-Ease. "Stat-Ease History". Stat-Ease, Inc.
- ↑ Stat-Ease (October 4, 2021). "Stat-Ease Announces Release of Stat-Ease 360 software" (PDF). Stat-Ease, Inc.
- ↑ Pat Whitcomb, Mark Anderson, "Screening Process Factors in the Presence of Interactions", American Society for Quality, 58th Annual Quality Congress, Session W202, 2004.
- ↑ "Small, Efficient, Equireplicated Resolution V Fractions…" by Gary W. Oehlert and Pat Whitcomb, October 15, 2002
- ↑ "Fall Technical Conference 2008" (PDF). SPES & QPS News: Joint Newsletter for the Section on Physical and Engineering Sciences and the Quality and Productivity Section of the American Statistical Association. December 2008. p. 8.
- ↑ Pat Whitcomb (September 2008). "FDS – A Powerful Tool for Designers of Optimization Experiments" (PDF). Stat-Ease white paper.
- ↑ Mark Anderson; Pat Whitcomb (2015). DOE Simplified: Practical Tools for Effective Experimentation (3rd ed.). New York: Productivity Press. ISBN 9781482218947.
- Mark Anderson; Pat Whitcomb (2016). RSM Simplified: Optimizing Processes Using Response Surface Methods for Design of Experiments (2nd ed.). New York: Productivity Press. ISBN 9781498745987.
- Mark Anderson; Pat Whitcomb; Martin Bezener (2018). Formulation Simplified: Finding the Sweet Spot through Design and Analysis of Experiments with Mixtures. New York: Productivity Press. ISBN 9781138056015. - ↑ Jeff Falk (5 February 2009). "R&D Test Method Expedites Speed to Market". Global Cosmetics Industry.
- ↑ Scott W. Doebling, Francois M. Hemez, John F. Schultze, "Validation of the Transient Structural Response of a Threaded Assembly", American Institute of Aeronautics and Astronautics, 43rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, 22–25 April 2002, Denver, Colorado
- ↑ Steve Peppers (October 2009). "DoE Helps Optimize a Cell Culture Bioproduction System". BioProcess International. 7 (S9): 24–27.
- ↑ D. Dale Werkema, Jr. (March 2008). "Report on the Geoelectrical Detection of Surfactant Enhanced Aquifer Remediation of PCE: Property Changes in Aqueous Solutions Due to Surfactant Treatment of Perchloroethylene: Implications to Geophysical Measurements". U.S. Environmental Protection Agency.
- ↑ Ali Daneshi; Habibollah Younesi; SeydMahmood Ghasempouri; Mazyar Sharifzadehb (November 2010). "Production of poly-3-hydroxybutyrate by Cupriavidus necator fromcorn syrup: statisticalmodeling and optimization of biomass yield and volumetric productivity". Journal of Chemical Technology & Biotechnology. 85 (11): 15238-1539. doi:10.1002/jctb.2463.
- ↑ Stelios Spaniolas; Maroussa Tsachaki; Malcolm J. Bennett; Gregory A. Tucker (March 2008). "Evaluation of DNA extraction methods from green and roasted coffee beans" (PDF). Food Control. 19 (3): 257-262. doi:10.1016/j.foodcont.2007.04.002.