Data Processing for the AHP/ANP

Business & Finance, Management & Leadership, Operations Research
Cover of the book Data Processing for the AHP/ANP by Daji Ergu, Yong Shi, Gang Kou, Yi Peng, Springer Berlin Heidelberg
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Author: Daji Ergu, Yong Shi, Gang Kou, Yi Peng ISBN: 9783642292132
Publisher: Springer Berlin Heidelberg Publication: September 3, 2012
Imprint: Springer Language: English
Author: Daji Ergu, Yong Shi, Gang Kou, Yi Peng
ISBN: 9783642292132
Publisher: Springer Berlin Heidelberg
Publication: September 3, 2012
Imprint: Springer
Language: English

The positive reciprocal pairwise comparison matrix (PCM) is one of the key components which is used to quantify the qualitative and/or intangible attributes into measurable quantities. This book examines six understudied issues of PCM, i.e. consistency test, inconsistent data identification and adjustment, data collection, missing or uncertain data estimation, and sensitivity analysis of rank reversal. The maximum eigenvalue threshold method is proposed as the new consistency index for the AHP/ANP. An induced bias matrix model (IBMM) is proposed to identify and adjust the inconsistent data, and estimate the missing or uncertain data. Two applications of IBMM including risk assessment and decision analysis, task scheduling and resource allocation in cloud computing environment, are introduced to illustrate the proposed IBMM.

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The positive reciprocal pairwise comparison matrix (PCM) is one of the key components which is used to quantify the qualitative and/or intangible attributes into measurable quantities. This book examines six understudied issues of PCM, i.e. consistency test, inconsistent data identification and adjustment, data collection, missing or uncertain data estimation, and sensitivity analysis of rank reversal. The maximum eigenvalue threshold method is proposed as the new consistency index for the AHP/ANP. An induced bias matrix model (IBMM) is proposed to identify and adjust the inconsistent data, and estimate the missing or uncertain data. Two applications of IBMM including risk assessment and decision analysis, task scheduling and resource allocation in cloud computing environment, are introduced to illustrate the proposed IBMM.

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