FAULT EVALUATION OF UNMANNED AERIAL VEHICLES POWER SYSTEM WITH AN IMPROVED FUZZY GROUP DECISION-MAKING

Yuehao Yan, Zhiying Lv, and Ruiyu Zhang

References

1. [1] M. Dong, K. Ota, M. Lin, Z. Tang, S. Du, and H. Zhu, UAV-assisted data gathering in wireless sensor networks, Journal ofSupercomputing, 70(3), 2014, 1142–1155.
2. [2] Yuehao Yan, Chengda LI, Rong Wang, Research on keytechnologies of unmanned aerial vehicle intelligent four shaftrotor, ICCWAMTIP, 2014, 495-449.
3. [3] Z.M. Fadlullah, D. Takaishi, H. Nishiyama, N. Kato, andR. Miura, A dynamic trajectory control algorithm for improving the communication throughput and delay in UAV-aidednetworks, IEEE Network, 1(30), 2016, 100–105.
4. [4] I. Jawhar, N. Mohamed, J. Al-Jaroodi, and S. Zhang, Aframework for using unmanned aerial vehicles for data collectionin linear wireless sensor networks, Journal of Intelligent &Robotic Systems, 74(1–2), 2013, 437.
5. [5] K. Li, W. Ni, X. Wang, R.P. Liu, S.S. Kanhere, andS. Jha, Energy-efficient cooperative relaying for unmannedaerial vehicles, IEEE Transactions on Mobile Computing,15(6), 2016, 1377–1386.
6. [6] Y. Saleem, M.H. Rehmani, and S. Zeadally, Integration ofcognitive radio technology with unmanned aerial vehicles:issues, opportunities, and future research challenges, Journalof Network and Computer Applications, 50, 2015, 15–31.
7. [7] S. Say, H. Inata, J. Liu, and S. Shimamoto, Priority-based datagathering framework in UAV-assisted wireless sensor networks,IEEE Sensors Journal, 16(14), 2016, 5785–5794.
8. [8] G. Steinbauer, A survey about faults of robots used in RoboCup,RoboCup 2012: Robot Soccer World Cup XVI, Springer, Berlin,Heidelberg, 2013, 344–355.
9. [9] R. Isermann, Model-based fault-detection and diagnosis-statusand applications, Annual Reviews in Control, 29, 2005, 71–85.
10. [10] Z. Lv, L. Zheng, X. Liang, and X. Liang, A fuzzy multipleattribute decision making method based on possibility degree,Journal of Intelligent & Fuzzy Systems, 31, 2016, 787–794.
11. [11] S.M. Chen and Z.C. Huang, Multiattribute decision makingbased on interval-valued intuitionistic fuzzy sets, PSO techniques, and evidential reasoning methodology, IEEE Transactions on Fuzzy Systems, 23(6), 2017, 1905–1916.
12. [12] C.Y. Tsao and T.Y. Chen, A projection-based compromisingmethod for multiple criteria decision analysis with interval-valued intuitionistic fuzzy information, Applied Soft Computing, 45, 2016, 207–223.
13. [13] J.Y. Chai, J.N.K. Liu, and Z.S. Xu, A rule-based group decision model for warehouse evaluation under interval-valuedintuitionistic fuzzy environments, Expert Systems with Appli-cations, 40(6), 2016, 1959–1970.
14. [14] S.P. Wan, J. Xu, and J.Y. Dong, Aggregating decision in-formation into interval-valued intuitionistic fuzzy numbersfor heterogeneous multi-attribute group decision making,Knowledge-Based Systems, 113, 2016, 155–170.
15. [15] L.E. Wang, H.C. Liu, and M.Y. Quan, Evaluating the riskof failure modes with a hybrid MCDM model under interval-valued intuitionistic fuzzy environments, Computers & Indus-trial Engineering, 102, 2016, 175–185.
16. [16] N. Howard, Paradoxes of rationality: Theory of metagamesand political behavior (Cambridge, MA: MIT Press, 1971).
17. [17] N. Howard, Confrontation analysis: how to win operationsother than war, Office of the assistant secretary of defense Washington DC command and control research program(CCRP), 1999.
18. [18] D.M. Kilgour, K.W. Hipel, and L.P. Fang, The graph modelfor conflicts, Automatica, 23, 1987, 41–55.
19. [19] J.P. Xu and Z.B. Wu, A discrete consensus support model formultiple attribute group decision making, Knowledge-BasedSystems, 24(8), 2011, 1196–1202.
20. [20] Y.J. Zhang, A.J. Li, and T. Fung, Using GIS and multiple criteria decision analysis for conflict resolution in landuse planning, Procedia Environmental Sciences, 13, 2010,2264–2273.
21. [21] Y.C. Dong, G.Q. Zhang, W.C. Hong, and Y.F. Xu, Consensusmodels for AHP group decision making under row geometricmean prioritization method, Decision Support Systems, 49(3),2010, 281–289.
22. [22] F. Chiclana, F. Mata, L. Mart´ınez, E. Herrera-Viedma, and S.Alonso, Integration of a consistency control module within aconsensus model, International Journal of Uncertainty, Fuzziness and Knowledge-Based Systems, 16(1), 2008, 35–53.
23. [23] F. Herrera, S. Alonso, F. Chiclana, and E. Herrera-Viedma,Computing with words in decision making: foundations, trendsand prospects, Fuzzy Optimization and Decision Making, 8,2009, 337–364.
24. [24] D. Ben-Aieh and Z.F. Chen, Linguistic group decision-making:opinion aggregation and measures of consensus, Fuzzy Optimization and Decision Making, 5(4), 2006, 371–386.
25. [25] K.G. Zografos, G.M. Vasilakis, and I.M. Giannouli, Methodological framework for developing decision support systems(DSS) for hazardous materials emergency response operations,Journal of Hazardous Materials, 71(1), 2000, 503–521.
26. [26] R.O. Parreiras, P.Y. Ekel, J.S.C. Martini, and R.M. Palhares,A flexible consensus scheme for multiple criteria group decisionmaking under linguistic assessments, Information Sciences,180(7), 2010, 1075–1089.

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• Abstract
• DOI: 10.2316/Journal.206.2018.3.206-5359
• From Journal (206) International Journal of Robotics and Automation - 2018

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