Journal ArticleDOI
A graph-aided method for planning two-level experiments when certain interactions are important
Chien-Fu Wu,Youyi Chen +1 more
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TLDR
In this paper, a graph-aided method is proposed to solve the problem of fractional factorial factorial experiment planning, where prior knowledge may suggest that some interactions are potentially important and should therefore be estimated free of the main effects.Abstract:
In planning a fractional factorial experiment prior knowledge may suggest that some interactions are potentially important and should therefore be estimated free of the main effects. In this article, we propose a graph-aided method to solve this problem for two-level experiments. First, we choose the defining relations for a 2 n–k design according to a goodness criterion such as the minimum aberration criterion. Then we construct all of the nonisomorphic graphs that represent the solutions to the problem of simultaneous estimation of main effects and two-factor interactions for the given defining relations. In each graph a vertex represents a factor and an edge represents the interaction between the two factors. For the experiment planner, the job is simple: Draw a graph representing the specified interactions and compare it with the list of graphs obtained previously. Our approach is a substantial improvement over Taguchi's linear graphs.read more
Citations
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Journal ArticleDOI
Dynamic graphical assessment of interaction effects in design of experiments
TL;DR: This work proposes an interactive graphics approach that assesses whether and which interactive effects to estimate and yields several additional benefits to the experimenter that include prototype simulation and unique learning opportunities for augmenting process knowledge in post-analysis.
Journal ArticleDOI
D-optimal two-level parallel-flats block designs with partial replication
Shin-Fu Tsai,Chen-Tuo Liao +1 more
TL;DR: In this paper, a new class of two-level factorial block designs with partial replication is proposed for estimating the user-specified requirement sets and variance components, and a set of sufficient conditions are presented for design characterization, and an algorithm is developed for systematically constructing the proposed designs.
Journal ArticleDOI
A Simple Method for Obtaining Minimum Aberration Designs
TL;DR: In this paper, a simple method to obtain minimum aberration designs for experiments of size less than or equal to thirty-two was proposed, where an ordered sequence of columns from an orthogonal array was used to design experiments and blocked experiments.
Dissertation
Searching for optimal orthogonal arrays for estimating main effects and some specified two-factor interactions
TL;DR: A computational algorithm is developed based on theoretical results from Tang and Zhou (2009) for finding optimal orthogonal arrays for estimating main effects and some specified two-factor interactions and a useful collection of optimal orthogsonal arrays with small run sizes is presented.
Taguchi Techniques for 2k Fractional Factorial Experiments
Nazan Danacıoğlu,F. Zehra Muluk +1 more
TL;DR: In this paper, a connection between the linear graph method and graph theory is investigated and the use of orthogonal arrays, linear graphs, and triangular tables in the design of experiments is explained using an example.
References
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Book
Quality Engineering Using Robust Design
TL;DR: This book offers a complete blueprint for structuring projects to achieve rapid completion with high engineering productivity during the research and development phase to ensure that high quality products can be made quickly and at the lowest possible cost.
Journal ArticleDOI
The graph isomorphism disease
Ronald C. Read,Derek G. Corneil +1 more
TL;DR: The present state of the art of isomorphism testing is surveyed, its relationship to NP-completeness is discussed, and some of the difficulties inherent in this particularly elusive and challenging problem are indicated.
Journal ArticleDOI
Minimum Aberration 2 k–p Designs
Arthur Fries,William G. Hunter +1 more
TL;DR: In this article, the concept of aberration is proposed as a way of selecting the best designs from those with maximum resolution, and algorithms are presented for constructing these minimum aberration designs.
Minimum Aberration 2k-p Designs
Arthur Fries,William G. Hunter +1 more
TL;DR: The concept of resolution was introduced by Box and Hunter as discussed by the authors, who defined the resolution of a two-level fractional factorial design as the length of the shortest word in the defining relation.