Carbon-based organic conjugated materials, such as conjugated polymers, graphene, fullerenes are wildly used in the fabrication of organic light-emitting diodes, organic solar cells, organic field-effect transistors and lithium sulfur batteries, because of their advantages in terms of the tunable band gap, low-cost, simple fabrication, light-weight and flexibility. Electronic and chemical structures at metal/organic and organic/organic interfaces are the key factors that strongly influence the performance of these photoelectric devices. Therefore, it's urgently needed to deeply understand the relationship between the interfacial structure and the performance of the devices involved. This will guide us to design rational interfaces to fabricate devices with higher efficiency and performances. In this paper, we investigate the multiple attribute decision making (MADM) problems for evaluating the performances of the photoelectric devices with hesitant fuzzy linguistic Information. Then, a model based on the hesitant fuzzy linguistic weighted geometric (HFLWG) operator to evaluate the performances of the photoelectric devices is presented. Finally, an illustrative example for evaluating the performances of the photoelectric devices is given to verify the developed approach and to demonstrate its practicality and effectiveness.
BorrelN., ChampeixC., KussenerE., RahajandraibeW., LisartM., DutertreJ.-M. and SarafianosA., Electrical model of an inverter body-biased structure in triple-well technology under pulsed photoelectric laser stimulation, Microelectronics Reliability55(9-10) (2015), 1592-1599.
2.
HuangZ., ZhuJ., YangL., XueB., WuJ. and ZhaoZ., Accurate 3-D position and orientation method for indoor mobile robot navigation based on photoelectric scanning, IEEE Trans Instrumentation and Measurement64(9) (2015), 2518-2529.
3.
ChangS., HuangQ., WangH., HeM. and DaiF., High precision multicolorimetric pyrometer with a novel photoelectric mosfet, IEEE Trans Instrumentation and Measurement63(3) (2014), 680-686.
4.
SarafianosA., RoscianC., DutertreJ.-M., LisartM. and TriaA., Electrical modeling of the photoelectric effect induced by a pulsed laser applied to an SRAM cell, Microelectronics Reliability53(9-11) (2013), 1300-1305.
5.
ChuuS.J., Evaluating the flexibility in a manufacturing system using fuzzy multi-attribute group decision-making with multi-granularity linguistic information, International Journal of Advanced Manufacturing Technology32(3-4) (Mar 2007), 409-421.
6.
ChuuS.J., Interactive group decision-making using a fuzzy linguistic approach for evaluating the flexibility in a supply chain, European Journal of Operational Research213(1) (Aug 2011), 279-289.
7.
LiuP.D., ZhangX. and LiuW.L., A risk evaluation method for the high-tech project investment based on uncertain linguistic variables, Technological Forecasting and Social Change78(1) (Jan 2011), 40-50.
8.
LinR., ZhaoX., WangH. and WeiG., Hesitant fuzzy linguistic aggregation operators and their application to multiple attribute decision making, Journal of Intelligent and Fuzzy Systems, in press, 2014.
9.
TorraV., Hesitant fuzzy sets, International Journal of Intelligent Systems25 (2010), 529-539.
10.
XiaM. and XuZ., Hesitant fuzzy information aggregation in decision making, International Journal of Approximate Reasoning52 (2011), 395-407.
11.
XiaM., XuZ. and ChenN., Some hesitant fuzzy aggregation operators with their application in group decision making, Group Decision and Negotiation3 (2011), 1-21.
12.
WeiG., ZhaoX., WangH. and LinR., Hesitant fuzzy choquet integral aggregation operators and their applications to multiple attribute decision making, Information: An International Interdisciplinary Journal15(2) (2012), 441-448.
13.
WeiG., Hesitant fuzzy prioritized operators and their application to multiple attribute group decision making, Knowledge-Based Systems31 (2012), 176-182.
14.
LiuX.B., PeiF., YangJ.B. et al., An MAGDM approach combining numerical values with uncertain linguistic information and its application in evaluation of R&D projects, International Journal of Computational Intelligence Systems3(5) (Oct 2010), 575-589.
15.
HerreraF. and NartinezL., A 2-tuple fuzzy linguistic representation model for computing with words, IEEE Transactions on Fuzzy Systems8(6) (2000), 746-752.
16.
HerreraF. and MartinezL., A model based on linguistic 2-tuples for dealing with multigranularity hierarchical linguistic contexts in multiexpert decision-making, IEEE Transactions on Systems, Man and Cybernetics-Part B: Cybernetics, 31(2) (2001), 227-234.
17.
HerreraF. and NartinezL., A 2-tuple fuzzy linguistic representation model for computing with words, IEEE Transactions on Fuzzy Systems8(6) (2000), 746-752.
18.
ChiclanaF., HerreraF. and Herrera-ViedmaE., The ordered weighted geometric operator: Properties and application, Proceedings of the 8th International Conference on Information Processing and Management of Uncertainty in Knowledge-Based Systems, Madrid, Spain, (2000), 985-991.
19.
ChiclanaF., HerreraF. and Herrera-ViedmaE., The ordered weighted geometric operator: Properties and application, in: Proc of 8th Int Conf on Information Processing and Management of Uncertainty in Knowledge-based Systems, Madrid, (2000), 985-991.
20.
XuZ.S. and DaQ.L., An overview of operators for aggregating information, International Journal of Intelligent System18 (2003), 953-969.
21.
WeiG.W., Picture fuzzy cross-entropy for multiple attribute decision making problems, Journal of Business Economics and Management17(4) (2016), 491-502.
22.
XuZ.S., On similarity measures of interval-valued intuitionistic fuzzy sets and their application to pattern recognitions, Journal of Southeast University (English Edition)23(1) (2007), 139-143.
23.
WeiG., Approaches to interval intuitionistic trapezoidal fuzzy multiple attribute decision making with incomplete weight information, International Journal of Fuzzy Systems17(3) (2015), 484-489.
24.
LiD.F., Closeness coefficient based nonlinear programming method for interval-valued intuitionistic fuzzy multiattribute decision making with incomplete preference information, Applied Soft Computing11 (2011), 3402-3418.
25.
WangP., LiY., WangY.-H. and ZhuZ.-Q., A new method based on TOPSIS and response surface method for MCDM problems with interval numbers, Mathematical Problems in Engineering2015 (2015), 11. Article ID 938535.
26.
WanS.P. and DongJ.Y., Interval-valued intuitionistic fuzzy mathematical programming method for hybrid multi-criteria group decision making with interval-valued intuitionistic fuzzy truth degrees, Information Fusion26 (2015), 49-65.
27.
MengF.Y., ZhangQ. and ChengX.H., Approaches to multiple-criteria group decision making based on interval-valued intuitionistic fuzzy Choquet integral with respect to the generalized λ-Shapley index, Knowledge-Based Systems37 (2013), 237-249.
28.
WanS.-P. and LiD.-F., Atanassov's intuitionistic fuzzy programming method for heterogeneous multiattribute group decision making with atanassov's intuitionistic fuzzy truth degrees, IEEE Transactions on Fuzzy Systems22(2) (2014), 300-312.
29.
XuZ. and YagerR.R., Power-geometric operators and their use in group decision making, IEEE Transactions on Fuzzy Systems18(1) (2010), 94-105.
30.
MerigóJ.M. and Gil-LafuenteA.M., Induced 2-tuple linguistic generalized aggregation operators and their application in decision-making, Information Sciences236(1) (2013), 1-16.
31.
DelgadoM., HerreraF., Herrera-ViedmaE., Martin-BautistaM.J., MartínezL. and VilaM.A., A communication model based on the 2-tuple fuzzy linguistic representation for a distributed intelligent agent system on internet, Soft Computing6 (2002), 320-328.
32.
WeiG., AlsaadiF.E., HayatT. and AlsaediA., Hesitant fuzzy linguistic arithmetic aggregation operators in multiple attribute decision making, Iranian Journal of Fuzzy Systems13(4) (2016), 1-16.
33.
CordónO., HerreraF. and ZwirI., Linguistic modeling by hierarchical systems of linguistic rules, IEEE Transactions on Fuzzy Systems10 (2002), 2-20.
34.
YaoO. and PedryczW., A new model for intuitionistic fuzzy multi-attributes decision making, European Journal of Operational Research249(2) (2016), 677-682.
