Konrad Kulakowski
Understanding the Analytic Hierarchy Process
Konrad Kulakowski
Understanding the Analytic Hierarchy Process
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The aim of Understanding Analytic Hierarchy Process book is to provide the reader with a critical guide to AHP. In this book, the AHP method is considered primarily as a mathematical technique supporting the decision-making process.
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The aim of Understanding Analytic Hierarchy Process book is to provide the reader with a critical guide to AHP. In this book, the AHP method is considered primarily as a mathematical technique supporting the decision-making process.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Chapman & Hall/CRC Series in Operations Research
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 264
- Erscheinungstermin: 11. November 2020
- Englisch
- Abmessung: 240mm x 161mm x 19mm
- Gewicht: 542g
- ISBN-13: 9781138032323
- ISBN-10: 1138032328
- Artikelnr.: 59985709
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Chapman & Hall/CRC Series in Operations Research
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 264
- Erscheinungstermin: 11. November 2020
- Englisch
- Abmessung: 240mm x 161mm x 19mm
- Gewicht: 542g
- ISBN-13: 9781138032323
- ISBN-10: 1138032328
- Artikelnr.: 59985709
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
Konrad Küakowski is an Associate Professor and Deputy Head of the Department of Applied Computer Science, Faculty of Electrical Engineering, Automatics, Computer Science and Biomedical Engineering at the AGH University of Science and Technology (AGH UST). He received his Ph.D. and Habilitation in computer science from AGH UST. His research interests are focused on multiple-criteria decision-making methods, including AHP, and their applications, theory and practice of the pairwise comparison method, parallel programming, and algorithms. He serves as a reviewer of many international journals in operational research and computer science. He has organized several special sessions in International Conferences on Computer Science and Operational Research. He has also served as a member of program committees at numerous international IT and OR conferences and meetings.
1. AHP as a decision-making method. 1.1. Why we need decision-making
methods. 1.2. AHP basics. 1.3. Neat examples. 2. PC Matrices. 2.1. Cardinal
PC Matrix. 2.2. Ordinal PC Matrix. 2.3. Incomplete PC matrix. 2.4. PC
matrix as a graph. 2.5. Graph as a matrix. 2.6. Additive PC matrix. 2.7.
Fuzzy PC matrix. 3. Prioritization methods. 3.1. Eigenvalue Method. 3.2.
Geometric mean method. 3.3. Optimization methods. 3.4. Weighted column sum
methods. 3.5. Towards comparing prioritization methods. 4. Prioritization
methods for incomplete PC matrices. 4.1. Eigenvalue method for incomplete
PC matrices. 4.2. Geometric mean method for incomplete PC matrices. 4.3.
Logarithmic Least Square Method. 4.4. Optimization methods. 4.5. Other
optimization methods. 5. Rating scale. 5.1. The concept of a rating scale.
5.2. Rating scales for AHP. 6. Inconsistency. 6.1. Introduction. 6.2.
Preliminaries. 6.3. Quantifying inconsistency. 6.4. Properties of
inconsistency indices. 7. Inconsistency of incomplete PC matrices. 7.1.
Introduction. 7.2. Preliminaries. 7.3. Quantifying inconsistency. 7.4.
Incompleteness and inconsistency. 8. Group Decisions. 8.1. Aggregation
methods. 8.2. Consensus methods. 8.3. Compatibility index. 9. Ordinal
inconsistency. 9.1. Condition of order preservation. 9.2. Kendall
Babington-Smith inconsistency index. 10. Fuzzy AHP. 10.1. Fuzzy LLSM. 10.2.
Order of alternatives in the fuzzy ranking. 10.3. Exact solution based on
fuzzy preferences. 10.4. Other methods and discussion. 11. Heuristic Rating
Estimation. 11.1. The idea of HRE. 11.2. Additive HRE. 11.3. Existence of a
solution for additive HRE. 11.4. Geometric HRE. 11.5. Existence of a
solution for geometric HRE. 11.6. Is geometric HRE optimal? 11.7.
Illustrative examples. Bibliography. Index
methods. 1.2. AHP basics. 1.3. Neat examples. 2. PC Matrices. 2.1. Cardinal
PC Matrix. 2.2. Ordinal PC Matrix. 2.3. Incomplete PC matrix. 2.4. PC
matrix as a graph. 2.5. Graph as a matrix. 2.6. Additive PC matrix. 2.7.
Fuzzy PC matrix. 3. Prioritization methods. 3.1. Eigenvalue Method. 3.2.
Geometric mean method. 3.3. Optimization methods. 3.4. Weighted column sum
methods. 3.5. Towards comparing prioritization methods. 4. Prioritization
methods for incomplete PC matrices. 4.1. Eigenvalue method for incomplete
PC matrices. 4.2. Geometric mean method for incomplete PC matrices. 4.3.
Logarithmic Least Square Method. 4.4. Optimization methods. 4.5. Other
optimization methods. 5. Rating scale. 5.1. The concept of a rating scale.
5.2. Rating scales for AHP. 6. Inconsistency. 6.1. Introduction. 6.2.
Preliminaries. 6.3. Quantifying inconsistency. 6.4. Properties of
inconsistency indices. 7. Inconsistency of incomplete PC matrices. 7.1.
Introduction. 7.2. Preliminaries. 7.3. Quantifying inconsistency. 7.4.
Incompleteness and inconsistency. 8. Group Decisions. 8.1. Aggregation
methods. 8.2. Consensus methods. 8.3. Compatibility index. 9. Ordinal
inconsistency. 9.1. Condition of order preservation. 9.2. Kendall
Babington-Smith inconsistency index. 10. Fuzzy AHP. 10.1. Fuzzy LLSM. 10.2.
Order of alternatives in the fuzzy ranking. 10.3. Exact solution based on
fuzzy preferences. 10.4. Other methods and discussion. 11. Heuristic Rating
Estimation. 11.1. The idea of HRE. 11.2. Additive HRE. 11.3. Existence of a
solution for additive HRE. 11.4. Geometric HRE. 11.5. Existence of a
solution for geometric HRE. 11.6. Is geometric HRE optimal? 11.7.
Illustrative examples. Bibliography. Index
1. AHP as a decision-making method. 1.1. Why we need decision-making
methods. 1.2. AHP basics. 1.3. Neat examples. 2. PC Matrices. 2.1. Cardinal
PC Matrix. 2.2. Ordinal PC Matrix. 2.3. Incomplete PC matrix. 2.4. PC
matrix as a graph. 2.5. Graph as a matrix. 2.6. Additive PC matrix. 2.7.
Fuzzy PC matrix. 3. Prioritization methods. 3.1. Eigenvalue Method. 3.2.
Geometric mean method. 3.3. Optimization methods. 3.4. Weighted column sum
methods. 3.5. Towards comparing prioritization methods. 4. Prioritization
methods for incomplete PC matrices. 4.1. Eigenvalue method for incomplete
PC matrices. 4.2. Geometric mean method for incomplete PC matrices. 4.3.
Logarithmic Least Square Method. 4.4. Optimization methods. 4.5. Other
optimization methods. 5. Rating scale. 5.1. The concept of a rating scale.
5.2. Rating scales for AHP. 6. Inconsistency. 6.1. Introduction. 6.2.
Preliminaries. 6.3. Quantifying inconsistency. 6.4. Properties of
inconsistency indices. 7. Inconsistency of incomplete PC matrices. 7.1.
Introduction. 7.2. Preliminaries. 7.3. Quantifying inconsistency. 7.4.
Incompleteness and inconsistency. 8. Group Decisions. 8.1. Aggregation
methods. 8.2. Consensus methods. 8.3. Compatibility index. 9. Ordinal
inconsistency. 9.1. Condition of order preservation. 9.2. Kendall
Babington-Smith inconsistency index. 10. Fuzzy AHP. 10.1. Fuzzy LLSM. 10.2.
Order of alternatives in the fuzzy ranking. 10.3. Exact solution based on
fuzzy preferences. 10.4. Other methods and discussion. 11. Heuristic Rating
Estimation. 11.1. The idea of HRE. 11.2. Additive HRE. 11.3. Existence of a
solution for additive HRE. 11.4. Geometric HRE. 11.5. Existence of a
solution for geometric HRE. 11.6. Is geometric HRE optimal? 11.7.
Illustrative examples. Bibliography. Index
methods. 1.2. AHP basics. 1.3. Neat examples. 2. PC Matrices. 2.1. Cardinal
PC Matrix. 2.2. Ordinal PC Matrix. 2.3. Incomplete PC matrix. 2.4. PC
matrix as a graph. 2.5. Graph as a matrix. 2.6. Additive PC matrix. 2.7.
Fuzzy PC matrix. 3. Prioritization methods. 3.1. Eigenvalue Method. 3.2.
Geometric mean method. 3.3. Optimization methods. 3.4. Weighted column sum
methods. 3.5. Towards comparing prioritization methods. 4. Prioritization
methods for incomplete PC matrices. 4.1. Eigenvalue method for incomplete
PC matrices. 4.2. Geometric mean method for incomplete PC matrices. 4.3.
Logarithmic Least Square Method. 4.4. Optimization methods. 4.5. Other
optimization methods. 5. Rating scale. 5.1. The concept of a rating scale.
5.2. Rating scales for AHP. 6. Inconsistency. 6.1. Introduction. 6.2.
Preliminaries. 6.3. Quantifying inconsistency. 6.4. Properties of
inconsistency indices. 7. Inconsistency of incomplete PC matrices. 7.1.
Introduction. 7.2. Preliminaries. 7.3. Quantifying inconsistency. 7.4.
Incompleteness and inconsistency. 8. Group Decisions. 8.1. Aggregation
methods. 8.2. Consensus methods. 8.3. Compatibility index. 9. Ordinal
inconsistency. 9.1. Condition of order preservation. 9.2. Kendall
Babington-Smith inconsistency index. 10. Fuzzy AHP. 10.1. Fuzzy LLSM. 10.2.
Order of alternatives in the fuzzy ranking. 10.3. Exact solution based on
fuzzy preferences. 10.4. Other methods and discussion. 11. Heuristic Rating
Estimation. 11.1. The idea of HRE. 11.2. Additive HRE. 11.3. Existence of a
solution for additive HRE. 11.4. Geometric HRE. 11.5. Existence of a
solution for geometric HRE. 11.6. Is geometric HRE optimal? 11.7.
Illustrative examples. Bibliography. Index