Multi-attribute global inference of quality: Difference between revisions

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Line 1: {{No footnotes\|date=September 2011}} ~~{{Portal\|Software Testing}}~~ '''Multi-~~Attribute~~attribute ~~Global~~global ~~Inference~~inference of ~~Quality~~quality''' ('''MAGIQ)''') is a [[multi-criteria decision analysis]] technique. MAGIQ is based on a hierarchical decomposition of comparison attributes and rating assignment using rank order centroids. == Description == The MAGIQ technique is used to assign a single, overall measure of quality to each member of a set of systems where each system has an arbitrary number of comparison attributes. The ~~MAQIC~~MAGIQ technique has features similar to the [[~~Analytic~~analytic ~~Hierarchy~~hierarchy ~~Process~~process]] and the ~~Simple~~simple ~~Multi~~multi-~~Attribute~~attribute ~~Rating~~rating ~~Technique~~technique ~~Exploiting~~exploiting ~~Ranks~~ranks (SMARTER) technique. The MAGIQ technique was first published by [[James D. McCaffrey]]. The MAGIQ process begins with an evaluator determining which system attributes are to be used as the basis for system comparison. These attributes are ranked by importance to the particular problem ___domain, and the ranks are converted to ratings using rank order centroids. Each system under analysis is ranked against each comparison attribute and the ranks are transformed into rank order centroids. The final overall quality metric for each system is the weighted (by comparison attribute importance) sum of each attribute rating. The references provide specific examples of the process. There is little direct research on the theoretical soundness and effectiveness of the MAGIQ technique as a whole, however the use of hierarchical decomposition and the use of rank order centroids in multi-criteria decision analyses have been studied, with generally positive results. Anecdotal evidence suggests that the MAGIQ technique is both practical and useful. == See also == * [[Multi-attribute utility]] * [[Multi-attribute auction]] == References == <!--- See [[Wikipedia:Footnotes]] on how to create references using <ref></ref> tags which will then appear here automatically --> {{Reflist\|30em}} ==Sources== * Edwards, W. and Barron, F.H. "SMARTS and SMARTER: Improved Simple Methods for Multiattribute Utility Measurement", Organizational Behavior and Human Decision Processes, 60, (1994), pp.  306–25. * Jia, Jianmin, Fischer, Gregory W., and Dyer, James S. "Attribute Weighting Methods and Decision Quality in the Presence of Response Error: A Simulation Study", Journal of Behavioral Decision Making (in press). * McCaffrey, James. "The Analytic Hierarchy Process", MSDN Magazine, June 2005 (Vol. 20, No. 6), pp.  139–144. See [http://msdn2.microsoft.com/en-us/magazine/cc163785.aspx].▼ * McCaffrey, James. "Multi-Attribute Global Inference of Quality (MAGIQ)", Software Test and Performance Magazine, August 2005 (Vol. 2, No. 7), pp.  28–32.▼ * McCaffrey, James, and Koski, Nasa. "Competitive Analysis Using MAGIQ", MSDN Magazine, October 2006 (Vol. 21, No. 11), pp.  35–39. See [http://msdn2.microsoft.com/en-us/magazine/cc300812.aspx].▼ [[Category:Group decision-making]] ▲* McCaffrey, James. "The Analytic Hierarchy Process", MSDN Magazine, June 2005 (Vol. 20, No. 6), pp. 139–144. See [http://msdn2.microsoft.com/en-us/magazine/cc163785.aspx]. [[Category:Multiple-criteria decision analysis]] [[Category:Sampling (statistics)]] ▲* McCaffrey, James. "Multi-Attribute Global Inference of Quality (MAGIQ)", Software Test and Performance Magazine, August 2005 (Vol. 2, No. 7), pp. 28–32. [[Category:Decision analysis]] [[Category:Design of experiments]] ▲* McCaffrey, James, and Koski, Nasa. "Competitive Analysis Using MAGIQ", MSDN Magazine, October 2006 (Vol. 21, No. 11), pp. 35–39. See [http://msdn2.microsoft.com/en-us/magazine/cc300812.aspx]. [[Category:Actuarial science]] [[Category:~~Decision_theory~~Single-equation methods (econometrics)]] [[Category:Regression models]] [[Category:Mathematical and quantitative methods (economics)]] [[Category:Mathematical optimization]] [[Category:Parametric statistics]]