Evaluation the profitability of dynamic investment projects by using ordered fuzzy numbers
Subject Areas : Financial Mathematics
jamil Jalilian
1
,
Reza Ehtesham Rasi
2
,
Mirfeiz Fallah Shams
3
1 - Department of Industrial Management, Science and Research Branch, Islamic Azad University, Tehran, Iran.
2 - Department of Industrial Management, Qazvin Branch, Islamic Azad University, Qazvin, Iran
3 - Department of Finance, Islamic Azad University , Central Tehran Branch, Tehran, Iran
Keywords:
Abstract :
[1] Tripathi, S., Application of Mathematics in Financial Management, (in en), Advances in Mathematical Finance and Applications, 2019, 4(2), P. 1-14. Doi:10.22034/amfa.2019.583576.1169.
[2] Awasthi, A., Omrani, H., A goal-oriented approach based on fuzzy axiomatic design for sustainable mobility project selection, International Journal of Systems Science: Operations and Logistics, 2019, 6(1), P. 86-98.
Doi: 10.1080/23302674.2018.1435834.
[3] O. J. J. o. E. D., Gutierrez and Control, Devaluating projects and the investment–uncertainty relationship, 2007, 31(12), P.3881-3888. Doi: 10.1016/j.jedc.2006.12.013.
[4] Brigham, E. F., Houston, J. F., Fundamentals of financial management, 2012, Cengage Learning.
[5] Kahraman, C., Kaya, İ., Fuzzy equivalent annual-worth analysis and applications, in Fuzzy Engineering Economics with Applications, 2008, Springer, P.71-81, Doi: 10.1007/978-3-540-70810-0_4.
[6] Gajzler, M., Zima, K. J. I. J. o. C. E., Evaluation of planned construction projects using fuzzy logic, 2017, 15 (4), P.641-652. Doi: 10.1007/s40999-017-0177-8.
[7] Kerzner, H., Project management: a systems approach to planning, scheduling, and controlling, 2017, John Wiley and Sons.
[8] Kuchta, D., Fuzzy Capital Budgeting Fuzzy Sets and Systems, 2000, 111(3), Doi:10.1016/S0165-0114(98)00088-8.
[9] Huang, X. J. C., Engineering, I., Mean-variance model for fuzzy capital budgeting, 2008, 55(1), P.34-47.
Doi: 10.1016/j.cie.2007.11.015.
[10] Kalantari, N., Mohammadi Pour, R., Seidi, M., Shiri, A., Azizkhani, M., Fuzzy Goal Programming Model to Rolling Performance Based Budgeting by Productivity Approach (Case Study: Gas Refiner-ies in Iran), (in en), Advances in Mathematical Finance and Applications, 2018, 3(3), P. 95-107. Doi: 10.22034/amfa.2018.544952.
[11] Zamanian, M. R., Sadeh, E., Amini Sabegh, Z., Ehtesham Rasi, R., A Fuzzy Goal-Programming Model for Optimization of Sustainable Supply Chain by Focusing on the Environmental and Economic Costs and Revenue: A Case Study, (in en), Advances in Mathematical Finance and Applications, 2019, 4(1), P.103-123.
Doi: 10.22034/amfa.2019.578990.1134.
[12] Chwastyk, A., Kosiński, W. J. M. a., Fuzzy calculus with aplications, 2013, 41(1).
Doi: 10.14708/ma.v41i1.380.
[13] Chansa-ngavej, C., and C. A. J. I. J. o. P. E. Mount-Campbell, Decision criteria in capital budgeting under uncertainties: implications for future research, 1991, 23 (1-3), P. 25-35. Doi: 10.1016/0925-5273(91)90045-U.
[14] Aliakbarpoor, Z., Izadikhah, M. Evaluation and ranking DMUs in the presence of both undesirable and ordinal factors in data envelopment analysis. Int. J. Autom. Comput. 2012, 9, P. 609–615. Doi: 10.1007/s11633-012-0686-5
[15] Collan, M., Liu, S. J. I. M., D. Systems, Fuzzy logic and intelligent agents: towards the next step of capital budgeting decision support, Industrial Management & Data Systems, 2003, 103 (6).
Doi: 10.1108/02635570310479981.
[16] M.-J. Wang and G.-S. J. T. E. E. Liang, Benefit/cost analysis using fuzzy concept, 1995, 40 (4), P. 359-376. Doi: 10.1080/00137919508903160.
[17] Schneider, J., Kuchta, D. J. J. o. M.-V. L., Computing, S., Fuzzy Capital Budgeting for Projects Characterized by Step Type Fuzzy Intervals, Multiple Valued Log. Soft Comput, 2018, 30 P. 303-334.
[18] J. J. J. F. s. Buckley and systems, The fuzzy mathematics of finance, 1987, 21 (3), P. 257-273. Doi: 0165-0114(87)90128-X.
[19] Chen, S. J. T. E. E., An empirical examination of capital budgeting techniques: impact of investment types and firm characteristics, 1995, 40 (2), P. 145-170. Doi: 10.1080/00137919508903142.
[20] Chiu, C.-Y., Park, C. S. J. T. E. E., Capital budgeting decisions with fuzzy projects, 1998, 43(2), P. 125-150.
[21] Kahraman, C., Kaya, İ. J. T., and Economy, E. D. o., Investment analyses using fuzzy probability concept, 2010, 16 (1), P. 43-57. Doi: 10.3846/tede.2010.03.
[22] Tsao, C.-T. J. J. o. S., and Systems, M., The expectation-deviation net present value by fuzzy arithmetic for capital investments, 2010, 13 (2), P. 267-281. Doi: 10.1080/09720510.2010.10701469.
[23] Gharanfoli, B., Valmohammadi, C., Identification and prioritization of construction projects investment risks using a hybrid fuzzy approach, Journal of Multi-Criteria Decision Analysis, 2019, 26 (3-4), P. 113-127. Doi: 10.1002/mcda.1661.
[24] Kosiński, W. K., Kosiński, W., Kościeński, K. J. M., and Review, P. E., Ordered fuzzy numbers approach to an investment project evaluation, 2013, 4. Doi: 10.2478/mper-2013-0015.
[25] Rudnik, K., Kacprzak, D. J. A. S. C., Fuzzy TOPSIS method with ordered fuzzy numbers for flow control in a manufacturing system, 2017, 52, P. 1020-1041. Doi: 10.1016/j.asoc.2016.09.027.
[26] Kosiński, W., Prokopowicz, P., Ślȩzak, D., Fuzzy reals with algebraic operations: Algorithmic approach, in Intelligent Information Systems 2002, 2002: Springer, P. 311-320, Doi: 10.1007/978-3-7908-1777-5_33.
[27] Zhou, W., and Xu, Z. J. A. S. C, Hesitant fuzzy linguistic portfolio model with variable risk appetite and its application in the investment ratio calculation, 2019, 84, P. 105719. Doi: 10.1016/j.asoc.2019.105719.
[28] Mellichamp, D. A. J. C., Engineering, C., Profitability, risk, and investment in conceptual plant design: Optimizing key financial parameters rigorously using NPV%, 2019, 128 P. 450-467.
Doi: j.compchemeng.2019.04.016.
[29] Wu, Y., Xu, C., Ke, Y., Chen, K., Sun, X. J. E., An intuitionistic fuzzy multi-criteria framework for large-scale rooftop PV project portfolio selection: case study in Zhejiang, China, 2018, 143, P. 295-309.
[30] Zadeh, L. A. J. I. c., Fuzzy sets, 1965, 8(3), P. 338-353. Doi: 10.1016/S0019-9958(65)90241-X.
[31] Dubois, D., and Prade, H. J. I. J. o. s. s., Operations on fuzzy numbers, 1978, 9(6), P. 613-626.
Doi: 10.1080/00207727808941724.
[32] Sadollah, A., Fuzzy Logic Based in Optimization Methods and Control Systems and Its Applications, 2018, BoD–Books on Demand, Doi: 10.5772/intechopen.79552.
[33] Radhika, C., and Parvathi, R., Defuzzification of intuitionistic fuzzy sets, Notes Intuitionistic Fuzzy Sets, 2016, 22(5), P.19-26.
[34] Kosiński, W., On defuzzyfication of ordered fuzzy numbers, in International Conference on Artificial Intelligence and Soft Computing, 2004, P. 326-331, Springer, Doi: 10.1007/978-3-540-24844-6_46
[35] Kacprzak, D., Input-Output Model Based on Ordered Fuzzy Numbers, in Theory and Applications of Ordered Fuzzy Numbers, 2017, Springer, Cham, P. 171-182, Doi: 10.1007/978-3-319-59614-3_9.
