This edited book discusses creative and recent developments of fuzzy systems and its real-life applications of multiple criteria decision making. Keeping on the existing fuzzy sets and recent developed fuzzy sets, viz., intuitionistic fuzzy, Pythagorean fuzzy, Fermatean fuzzy, Hesitant fuzzy and multiple criteria decision approaches, this book is committed to probing the soft computing techniques and fuzzy multiple criteria decision making in favour of fuzzy intelligent system and business analytics. It also addresses novel development of fuzzy set theory as well as real-life applications of fuzzy systems. It presents challenging and useful real-world applications based on problems of decision making in various fields. The modelling and solution procedures of such real-world problems will be provided concisely although all topics start with a more developed resolution.
The contributory chapters will be based on the vast research experiences of the authors in real-worlddecision-making problems. This book provides readers with a valuable conspectus of several decision-making problems as a reference for researchers and industrial practitioners in this field. This book will broadly cover recent development of fuzzy systems and its applications of multiple criteria decision making in the areas of management and production, manufacturing management, selections problems, group decision making, transportation and logistics, inventory control systems and interval technique/fuzzy technique (uncertainty) of the above mentioned areas.
Chapter
1. Generalized Dombi weighted aggregation operators for
Multi-attribute decision-making with hesitant fuzzy information.
Chapter
2.
A novel extended Fermatean fuzzy framework for evaluating the challenges to
sustainable smart city development.
Chapter
3. Nonlinear Scaled Preferences
in Linguistic Multi-Criteria Group Decision Making.
Chapter
4. Fermatean
Fuzzy Combined Compromise Solution Multiple expert Multiple Criteria Decision
Making Approach.
Chapter
5. Multi-criteria decision analysis and
fuzzy-decision-making trial and evaluation laboratory (MCDA and F-DEMATEL)
method for flipped and sustainable mathematics teaching as a real-life
application.
Chapter
6. Accounting for uncertainty and disagreement in
multi-criteria decision making using triangular fuzzy numbers and Monte Carlo
simulation: A case study about selecting measures for remediation of
agricultural land after radioactive contamination.
Chapter
7. An IT2FBWM
model to highlight the significance of factors uti-lized in determining p
demic hospital site selection.
Chapter
8. Group decision-making analysis
under interval-valued q-rung orthopair fuzzy soft expert sets.
Chapter
9.
Information Aggregation Approaches for Multi-Criteria Applications.
Chapter
10. Generalized Interval-Valued Intuitionistic Hesitant Fuzzy Power
Bonferroni Means and their Applications to Multicriteria Decision Making.-
Chapter
11. Modified Senapati and Yagers Fermatean fuzzy distance and its
application in students course placement in tertiary institution.
Chapter
12. A fuzzy decision making inventory model for deteriorating items under
discounted partial advance-partial delayed payment strategy.
Chapter
13. The
Effect of Solvents on the Oxidation of Acetaldehyde Using TOPSIS Method in a
Fuzzy Environment.
Chapter
14. Solution of Airport Gate Re-assignment
Problem under Uncertain Environment.
Chapter
15. Bilevel approach for
e-bidding auction with regret theory.- Chapter
16. Evaluation of sustainable
green building indicators by fuzzy multi-criteria decision making.
Chapter
17. Solving Multi-objective Linear Fractional Programming Problem Utilizing
(, )-cut in Triangular Intuitionistic Fuzzy Setup.
Chapter
18. q-rung
orthopair fuzzy 2-tuple linguistic Hamy mean operators for MAGDM with
modified EDAS method.
Chapter
19. Determining the Importance Level of
Effective Criteria in the Health Information System Selection via Spherical
Fuzzy DEMATEL Method.
Chapter
20. Score function based effective ranking of
interval valued Fermatean fuzzy sets and its applications to multi-Criteria
Decision Making (MCDM) Problem.
Chapter
21. A Fuzzy EOQ model for
deteriorating items under trade credit policy with unfaithfulness nature of
customers.
Chapter
22. Comparison of herd tracking systems using fuzzy logic
based multi-criteria decision making methods.
Chapter
23. Multi-Criteria
Decision Making and its application to online learning platform selection
during the Covid-19 pa demic based on TOPSIS Method.
Chapter
24. A
comprehensive study on neutrosophic fuzzy solid transportation model and its
solution technique.
Chapter
25. Cubic Picture Hesitant Fuzzy Linear spaces
and their applications in multi criteria Decision Making.
Chapter
26. New
Ranking Approach to Solve MCDM Problems with Generalized intuitionistic fuzzy
Information.
Chapter
27. A note on Parameter estimation and optimization of
multi objective capacitated stochastic transportation problem for gamma
distribution.
Chapter
28. Assigning Mexican regions to categories of
marginality with MR-sort.
Chapter
29. Clustering faculty members for the
betterment of research outcomes: A fuzzy Multi-Criteria Decision Making
approach in Team Formation.
Chapter
30. Freight Village Efficiency Criteria
Evaluation via Fuzzy Multi-Criteria Decision-Making Methods.
Laxminarayan Sahoo is currently an Associate Professor of Computer and Information Science, Raiganj University, Raiganj, India. He obtained his MSc from Vidyasagar University, India and his PhD from The University of Burdwan, India. He has received MHRD fellowship from Govt. of India during his M. Tech. course at ISM, Dhanbad, India and also received Prof. M.N. Gopalan Award for Best PhD thesis in Operations Research from Operational Research Society of India (ORSI). Dr. Sahoo has successfully guided 01 research scholars for PhD degree, four students continuing their PhD degree and has published a good number of articles in international and national journals of repute. He is a reviewer of several international journals and Academic Editor of International Journal Mathematical Problems in Engineering, Hindawi Publication. He has also successfully completed one UGC minor research project. His specializations include, Wireless Sensor Network, Distributed Computing, Reliability Optimization, Genetic Algorithms, Particle Swarm Optimization, Graph Theory, Fuzzy Game Theory, Interval Mathematics, Soft Computing, Fuzzy Decision making and Operations Research. He is also a reviewer of several national and international journals. Dr. Sahoo is the author of the books Advanced Operations Research published by Asian Books, New Delhi, Advanced Optimization and Operations Research published by Springer Nature, Singapore.
Tapan Senapati received the B. Sc., M. Sc. and Ph.D. degrees in Mathematics all from the Vidyasagar University, India in 2006, 2008, and 2013 respectively. Presently he works as an Assistant Teacher of Mathematics under Govt. of West Bengal, India. He has also worked as Postdoctoral fellow at Southwest University, School of Mathematics and Statistics, 400715 Chongqing, China. He has published two books and more than 70 articles in reputed international journals. His research results have been published in Fuzzy Sets and Systems, IEEE Transactions on Fuzzy Systems, Applied Soft Computing, Engineering Applications of Artificial Intelligence, International Journal of Intelligent Systems, and International Journal of General Systems, among others. He is a reviewer of several international journals and is also an academic editor of Computational Intelligence and Neuroscience, Discrete Dynamics in Nature and Society, Mathematical Problems in Engineering. His main scientific interests concentrate on fuzzy sets, fuzzy optimization, soft computing, multi-attribute decision making, aggregation operators.
Ronald R. Yager has worked in the area of machine intelligence for over twenty-five years. He has published over 500 papers and more than thirty books in areas related to artificial intelligence, fuzzy sets, decision-making under uncertainty and the fusion of information. He is among the worlds top 1% most highly cited researchers with over 85,000 citations. He was the recipient of the IEEE Computational Intelligence Societys highly prestigious Frank Rosenblatt Award in 2016. He was the recipient of the IEEE Systems, Man and Cybernetics Society 2018 Lotfi Zadeh Pioneer Award. He was also the recipient of the IEEE Computational Intelligence Society Pioneer award in Fuzzy Systems. He received honorary doctorates from the Azerbaijan Technical University, the State University of Information Technologies, Sofia Bulgaria and the Rostov on the Don University, Russia. Dr. Yager is a fellow of the IEEE and the Fuzzy Systems Association. He was given a lifetime achievement award by the Polish Academy of Sciences for his contributions. He served at the National Science Foundation as program director in the Information Sciences program. He was a NASA/Stanford visiting fellow and a research associate at the University of California, Berkeley. He has been a lecturer at NATO Advanced Study Institutes. He is a Distinguished Adjunct Professor at King Abdulaziz University, Jeddah, Saudi Arabia. He was a distinguished honorary professor at the Aalborg University Denmark. He was distinguished visiting scientist at King Saud University, Riyadh, Saudi Arabia. He received his undergraduate degree from the City College of New York and his Ph. D. from the Polytechnic University of New York. He was editor and chief of the International Journal of Intelligent Systems. He serves on the editorial board of numerous technology journals. Currently he is an Emeritus Professor at Iona College and is director of the Machine Intelligence.
