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Terminology in Interpretive Structural Modeling: Difference between revisions
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Terminology in Interpretive Structural Modeling (view source)
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|[[Flexible Interpretive Structural Modeling]] | |[[Flexible Interpretive Structural Modeling]] | ||
| | |Extended version of Warfield's ISM; allows corrections while a structural model is being developed, or after it has been developed. | ||
| | |[[Ohuchi & Kaji, 1989]]. | ||
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|2 | |2 | ||
| Line 19: | Line 18: | ||
|3 | |3 | ||
|[[Correction Procedures]] | |[[Correction Procedures]] | ||
| | |Procedures and algorithms for editing an ISM structural model while if being developed or after it is completed | ||
|ref | |ref | ||
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|7 | |7 | ||
|[[Transitive Coupling Problem]] | |[[Transitive Coupling Problem]] | ||
| | |The problem of interconnecting two multilevel subsystem models defined on the same contextual relation that is transitive. | ||
|ref | |ref | ||
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|12 | |12 | ||
|[[Complete | |[[Complete Implication Matrix Ψ]] | ||
|mmmmmmmm | |mmmmmmmm | ||
|ref | |ref | ||
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|13 | |13 | ||
|[[Total Interpretive Structural Modeling]] | |[[Total Interpretive Structural Modeling]] | ||
| | |Approach used for theory building; helps researchers answer the fundamental research questions of what, how, and why; helps identify and define the variables, the relationship between them, and the reason for causality between variables. | ||
|ref | |ref | ||
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|16 | |16 | ||
|[[Transitive bordering]] | |[[Transitive bordering]] | ||
| | |Special case of [[Transitive Coupling]] in which the sub-system B consists of a single element. | ||
|ref | |ref | ||
|- | |- | ||
|17 | |17 | ||
|[[Transitive System]] | |[[Transitive System]] | ||
| | |A system whose elements are related with [[Transitive Relations]]. | ||
|ref | |ref | ||
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|22 | |22 | ||
|[[Question Algorithm]] | |[[Question Algorithm]] | ||
| | |The logic used to select the next unknown for questioning | ||
|ref | |ref | ||
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|24 | |24 | ||
|[[One-first Procedure]] | |[[One-first Procedure]] | ||
| | |Performed when the [[One-first Selection Rule]] is chosen. | ||
|ref | |ref | ||
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|[[Sushil 2012]]; | |[[Sushil 2012]]; | ||
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} | |27 | ||
|[[Interpretive Structural Modeling]] | |||
|Methodology for identifying relationships among specific items, which define a problem or an issue. <br> Process that transforms unclear and poorly articulated mental models of systems into visible, well-defined models useful for many purposes. | |||
|[[Rajesh et al 2013]]<br>[[Shushil 2012]] | |||
|- | |||
|28 | |||
|[[Structural Self-Interaction Matrix]] | |||
|ref | |||
|- | |||
|29 | |||
|[[Deletion Procedure]] | |||
|Deletion of one or more elements and their connections in the M matrix. | |||
|ref | |||
|- | |||
|30 | |||
|[[Addition Procedure]] | |||
|Addition of one or more elements and their connections in the M matrix. | |||
|ref | |||
|- | |||
|31 | |||
|[[Standard Form to Condensation Matrix]] | |||
|Replace a cycle set with one of the elements in the set. | |||
|ref | |||
|- | |||
|32 | |||
|[[Hierarchical Matrices]] | |||
| | |||
|ref | |||
|- | |||
|33 | |||
|[[Characteristic Logic Equation]] | |||
|Expresses the necessary and sufficient conditions to be satisfied by the entries in an [[Interconnection Matrix]] M<sub>BA</sub>, that interconnects two hierarchical digraphs A<sup>*</sup> and B<sup>*</sup> for which M<sub>AB</sub> = 0. | |||
|ref | |||
|- | |||
|34 | |||
|[[Cascade Interconnection of Digraphs]] | |||
|Two [[Digraphs]] are said to be cascaded if all interconnections are oriented from one of the digraphs to the other. | |||
|ref | |||
|- | |||
|35 | |||
|[[Digraphs]] | |||
|A directed graph, also called a digraph, is a graph in which the edges have a direction. | |||
|ref | |||
|- | |||
|36 | |||
|[[Reachability Matrix]] | |||
|Reachability refers to the ability to get from one vertex to another within a graph. | |||
|ref | |||
|- | |||
|37 | |||
|[[Structural Equation Modeling]] | |||
|Set of statistical techniques used to measure and analyze the relationships of observed and latent variables. | |||
|ref | |||
|- | |||
|38 | |||
|[[Transitive Relations]] | |||
|Relationships for which if element X is related to element Y, and element Y is related to element Z of the set, we can derive thatelement A must be related to element Z. | |||
|ref | |||
|- | |||
|39 | |||
|[[Transitive Closure]] | |||
|... | |||
|ref | |||
|- | |||
|40 | |||
|[[Binary Matrices]] | |||
|All elements are either 0 or 1; In ISM they are square. | |||
|ref | |||
|- | |||
|41 | |||
|[[Partitioning of an Element]] | |||
|e. | |||
|ref | |||
|- | |||
|41 | |||
|[[Binary Matrix Model]] | |||
|A binary matrix and three associations (indicated by colons), i.e. <br> M = { N, V: I<sub>s</sub>, H: I<sub>t</sub>, ''R̂'': ''R'' } | |||
|ref | |||
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