اخبار و اعلانات
آمار
| تعداد نشریات | 27 |
| تعداد شمارهها | 612 |
| تعداد مقالات | 6,232 |
| تعداد مشاهده مقاله | 9,356,664 |
| تعداد دریافت فایل اصل مقاله | 6,107,671 |
Designing a sustainable development model for agricultural sector under critical circumstances (COVID-19 Pandemic): A fuzzy approach | ||
| Iranian Journal of Fuzzy Systems | ||
| دوره 20، شماره 2، خرداد و تیر 2023، صفحه 173-200 اصل مقاله (758.75 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22111/ijfs.2023.7565 | ||
| نویسندگان | ||
| M. R. Rezaeifar1؛ M. R. Zare Mehrjerdi* 1؛ H. Nezamabadi-pour2؛ H. Mehrabi Boshr Abadi1 | ||
| 1Department of Agricultural Economics, Faculty of Agricultural, Shahid Bahonar University of Kerman, Kerman, Iran | ||
| 2Department of Electrical Engineering, Faculty of Engineering, Shahid Bahonar University of Kerman, Kerman, Iran | ||
| چکیده | ||
| The COVID-19 pandemic has affected health, economic, and social factors and harmed the distribution and sales of agricultural products. It has become a crucial factor in agricultural development. The purpose of the present study is to design a sustainable development model in the agricultural sector under circuital circumstances (i.e., the COVID-19 pandemic). To achieve this goal of used a combined methodology of grounded theory, the Fuzzy Delphi Method (FDM), the Fuzzy decision-making trial and evaluation laboratory (FDEMATEL) method, and the Fuzzy decision-making trial and evaluation laboratory-based analytic network process (FDANP) method. The criteria of higher importance were identified using grounded theory and FDM. Then, the fuzzy DEMATEL method was carried out to identify internal relationships, effects, and dependencies of the main criteria. Finally, the weight of the main criteria of the model has been calculated with the Fuzzy DANP method. According to the results of the Fuzzy DEMATEL method, Critical circumstances (COVID-19), environmental factors, educational factors, health factors, and economic factors had the highest effects. The “critical circumstances” criterion (COVID-19) had the largest effect and strongest relationship with the other criteria. On the other hand, the results of the Fuzzy DANP method show that environmental factors (MC7), social factors (MC2), critical circumstances (COVID-19) (MC5), health factors (MC1), entrepreneurial factors (MC8), are the most important criteria of the sustainable development model of the agricultural sector under critical circumstances. Therefore, to move on the path of sustainable development in the agricultural sector, one should focus on the factors that have a higher influence and importance. | ||
| کلیدواژهها | ||
| Sustainable development؛ agricultural sector؛ COVID-19؛ Iran؛ fuzzy DEMATEL؛ criterion identification | ||
| مراجع | ||
|
[1] F. Acu˜na-Carvajal, L. Pinto-Tarazona, H. L´opez-Ospina, R. Barros-Castro, L. Quezada, K. Palacio, An integrated method to plan, structure and validate a business strategy using fuzzy DEMATEL and the balanced scorecard, Expert Systems with Applications, 122 (2019), 351-368. 2] J. Afshani, A. Karimi, N. Osati Eraghi, F. Zarafshan, A fuzzy DEMATEL-ANP-based approach to prioritize activities in enterprise architecture, Complexity, 2022. [3] S. Altuntas, T. Dereli, A novel approach based on DEMATEL method and patent citation analysis for prioritizing a portfolio of investment projects, Expert Systems with Applications, 42 (2015), 1003-1012. [4] S. Amirzadeh Moradabadi, S. Ziaei, H. Mehrabi Bosharabadi, A. Kehkha, The effect of agricultural sustainability on food security of urban households in Iran: Spatial analysis at the provincial level, Agricultural Economics and Development, 28 (2020), 25-48. (In Persian) [5] M. Bouzon, K. Govindan, C. M. T. Rodriguez, L. M. Campos, Identification and analysis of reverse logistics barriers using fuzzy Delphi method and AHP, Resources, Conservation and Recycling, 108 (2016), 182-197. [6] M. Buini, H. Mohammadi, The role of rural management in sustainable development with emphasis on viability.
New researches of geographical sciences, Architecture and Urban Planning, Year 3, 25 (2020), 184-196. (In Persian) [7] B. Chang, C. W. Chang, C. H. Wu, Fuzzy DEMATEL method for developing supplier selection criteria, Expert Systems with Applications, 38 (2011), 1850-1858. [8] F. H. Chen, T. S. Hsu, G. H. Tzeng, A balanced scorecard approach to establish a performance evaluation and relationship model for hot spring hotels based on a hybrid MCDM model combining and ANP, International Journal of Hospitality Management, 30(4) (2011), 908-932. [9] C. H. Cheng, Y. Lin, Evaluating the best main battle tank using fuzzy decision theory with linguistic criteria evaluation, European Journal of Operational Research, 142 (2002), 174-186. [10] W. Y. Chiu, G. H. Tzeng, H. L. Li, A new hybrid MCDM model combining DANP with VIKOR to improve e-store business, Knowledge Based Systems, 37 (2013), 48-61. [11] A. Darwishi, Capacity and potential for sustainable agricultural development in Iran, Agricultural Economics and Development, 5 (1994), 30-53. (In Persian) [12] J. L. Deng, Introduction to grey system theory, The Journal of Grey System, 1(1) (1989), 1-24.
[13] S. Fallah Alipour, H. Mehrabi Bosharabadi, M. Zare Mehrjerdi, D. Hayati, A model for measuring agricultural sustainability using fuzzy composite indices (Case study: Kerman province), Agricultural Knowledge and Sustainable Production (agricultural knowledge), 29(3) (2019), 253-269. (In Persian) [14] M. Firoozi, S. Amanpour, A. Hasiri, Investigating the role of agriculture in sustainable rural development (Case study: Bardkhoon ward; Deir city), Zagros Vision Geography and Urban Planning Quarterly, 8 (2016), 125-140. (In Persian) [15] A. Ghanbari, A. Rahmani Fazli, F. Azizpour, Analysis of the effect of geographical advantages on sustainable rural development of Khorramabad city, Regional Geography and Urban Planning, 36 (2020), 1-20. (In Persian) [16] B. G. Glaser, A. L. Strauss, The discovery of grounded theory, Aldine, New York, 1967.
[17] H. Y. Gu, C. W. Wang, Impacts of the COVID-19 pandemic on vegetable production and countermeasures from an agricultural insurance perspective, Journal of Integrative Agriculture, 19 (2020), 2866-2876. [18] D. Hayati, A. Karami, Development of an index to measure the sustainability of agricultural systems for use in socioeconomic research, Proceedings of the First Iranian Agricultural Economics Conference, Sistan and Baluchestan University, (1997), 634-649. (In Persian) [19] R. Heffron, M. F. Korner, M. Schopf, J. Wagner, M. Weibelzahl, The role of flexibility in the light of the COVID19 pandemic and beyond: Contributing to a sustainable and resilient energy future in Europe, Renewable and Sustainable Energy Reviews, 140 (2021). DOI: 10.1016/j.rser.2021.110743.
[20] P. Hess, J. Siciliano, Management: Responsibility for performance, New York: McGraw-Hill, 1996.
[21] H. Hosseini Iraqi, Agriculture for the future: How to use low inputs in sustainable agriculture, Collection of Articles on Sustainable Agricultural Development (Quarterly Journal of Agricultural Economics and Development), (1997), 113-168. (In Persian) [22] S. K. Hu, G. H. Tzeng, Strategizing for better life development using OECD well-being indicators in a hybrid fuzzy MCDM model, International Journal of Fuzzy Systems, 19(6) (2017), 1683-1702. [23] A. Ishikawa, M. Amagasa, T. Shiga, G. Tomizawa, R. Tatsuta, H. Mieno, The max-min Delphi method and fuzzy Delphi method via fuzzy integration, Fuzzy Sets and Systems, 55(3) (1993), 241-253. [24] A. Kaufmann, M. M. Gupta, Fuzzy mathematical models in engineering and management science, North-Holland: Amsterdam, 1988. [25] A. Kaufmann, M. M. Gupta, Introduction to fuzzy arithmetic: Theory and applications, New York: Thomson Computer Press, 1991. [26] S. Y. Kim, M. V. Nguyen, T. T. Dao, Prioritizing complexity using fuzzy DANP: Case study of international development projects, Engineering, Construction and Architectural Management, (2020). DOI:10.1108/ECAM-04- 2020-0265. [27] G. Kou, D. Ergu, C. Lin, Y. Chen, Pairwise comparison matrix in multiple criteria decision making, Technological and Economic Development of Economy, 22(5) (2016), 738-765. [28] G. Kou, D. Ergu, J. Shang, Enhancing data consistency in decision matrix: Adapting Hadamard model to mitigate judgment contradiction, European Journal of Operational Research, 236(1) (2014), 261-271. [29] G. Kou, C. Lin, A cosine maximization method for the priority vector derivation in AHP, European Journal of Operational Research, 235(1) (2014), 225-232. [30] A. Kouchaki, Sustainable agriculture: Insights or methods?, Agricultural Economics and Development, 20 (1997), 53-72. (In Persian) [31] A. Kouchaki, Sustainable agriculture and the environment, Final Report of the Future Food Plan, Report of the Academy of Sciences of the Islamic Republic of Iran, (2003). (In Persian) [32] A. Kouchaki, M. Nasiri Mahallati, H. Mansoori, R. Moradi, Evaluation of sustainable agricultural development in Iran using comparative advantage method, Agricultural Economics and Development, 23(90) (2016), 29-54. (In Persian) [33] A. Kouchaki, M. Nasiri Mahalati, R. Moradi, H. Mansouri, Zoning the situation of sustainable agricultural development in Iran and presenting sustainability strategies, Journal of Agricultural Knowledge and Production, 4 (2013), 179-197. (In Persian) [34] R. J. Li, Fuzzy method in group decision making, Computers and Mathematics with Applications, 38 (1999), 91-101.
[35] C. W. Li, G. H. Tzeng, Identification of interrelationship of key customers’ needs based on structural model for services/capabilities provided by a Semiconductor-Intellectual-Property Mall, Applied Mathematics and Computation, 215 (2009), 2001-2010. [36] C. J. Lin, W. W. Wu, A causal analytical method for group decision-making under fuzzy environment, Expert Systems with Applications, 34 (2008), 205-213. [37] B. X. Lin, Y. Y. Zhang, Impact of the COVID-19 pandemic on agricultural exports, Journal of Integrative Agriculture, 19(12) (2020), 2937-2945.
[38] H. C. Liu, J. X. You, L. Zhen, X. J. Fan, A novel hybrid multiple criteria decision making model for material selection with target-based criteria, Materials and Corrosion, 60 (2014), 380-390. [39] A. M. Mahdavi Damghani, Study of ecological sustainability of some agricultural systems in Khorasan province using a military approach, PhD Thesis in Agriculture, Faculty of Agriculture, Ferdowsi University of Mashhad, (2005). (In Persian) [40] A. Mahdavi, Investigating the efficiency of higher education in Iran in order to achieve sustainable development, Economic Research (Sustainable Growth and Development), 20(4) (2020), 1-32. (In Persian) [41] A. Mart´ınez-Noya, E. Garc´ıa-Canal, Technological capabilities and the decision to outsource/outsource offshore R&D services, International Business Review, 20 (2011), 264-277. [42] A. Meshkbid, T. Amar, M. Qureshi, Comparative analysis of agricultural development policies in the last two decades in Gilan province with emphasis on sustainable development (Case study: Rudsar city), Journal of New Attitudes in Human Geography, 12 (2020), 381-403. (In Persian) [43] P. Moridsadat, A. Roknaldin Eftekari, Strategic analysis of sustainable agricultural development with entrepreneurial approach (Case study: Khuzestan province), Journal of Regional Planning, 8(30) (2018), 31-49. (In Persian)
[44] H. Najafi Alamdarlu, A. Yunsian, About dealing with the spread of the corona virus investigating the economic effects of the spread of the corona virus on the agricultural sector of Iran, Economic Studies Office of Islamic Parliament Research Center of the Islamic Republic of IRAN, 16972 (2020). (In Persian) [45] N. Noorderhaben, Strategic decision making, Addison-Wesley, 1995.
[46] S. Opricovic, G. H. Tzeng, Defuzzification within a multicriteria decision model, International Journal of Uncertainty, Fuzziness And Knowledge-Based Systems, 11 (2003), 635-652.
[47] S. Opricovic, G. H. Tzeng, Compromise solution by MCDM methods: A comparative analysis of VIKOR and TOPSIS, European Journal of Operational Research, 156(2) (2004), 445-455. [48] Y. P. Ou Yang, J. D. Leu, G. H. Tzeng, A novel hybrid MCDM model combined with DEMATEL and ANP with applications, International Journal of Operational Research, 5 (2008), 1-9. [49] J. N. Pan, H. T. N. Nguyen, Achieving customer satisfaction through product, Service Systems, European Journal of Operational Research, 247 (2015), 179-190. [50] B. Pirouz, S. Shaffiee Haghshenas, S. Shaffiee Haghshenas, P. Piro, Investigating a serious challenge in the sustainable development process: Analysis of confirmed cases of COVID-19 (new type of coronavirus) through a binary classification using artificial intelligence and regression analysis, Sustainability, 12 (2020), 2427. [51] H. Pishro, P. Azizi, Sustainable agricultural development through the stabilization of agricultural incomes, New Attitudes in Human Geography (Human Geography), 1(4) (2009), 1-20. (In Persian) [52] M. Pu, Y. Zhong, Rising concerns over agricultural production as COVID-19 spreads: Lessons from China, Global Food Security, 26 (2020). DOI:10.1016/j.gfs.2020.100409. [53] G. Rasul, Twin challenges of COVID-19 pandemic and climate change for agriculture and food security in South Asia, Environmental Challenges, 2 (2021). DOI:10.1016/j.envc.2021.100027. [54] B. Roy, P. Vincke, Multicriteria analysis: Survey and new directions, European Journal of Operational Research, 8(3) (1981), 207-218. [55] R. Shahi-Moridi, H. Kazemi, B. Kamkar, Assessing the status of sustainable agricultural development in Golestan province, Journal of Agricultural Knowledge and Sustainable Production, 1 (2017), 197-215. (In Persian) [56] M. Shahvarooqi Farahani, The financial role of climate in economic growth and sustainable development, Environmental Studies, Natural Resources and Sustainable Development, 16 (2020), 31-43. (In Persian)
[57] S. L. Si, X. Y. You, H. C. Liu, P. Zhang, DEMATEL technique: A systematic review of the state-ofthe-art literature on methodologies and applications, Mathematical Problems in Engineering, 2018 (2018). DOI:10.1155/2018/3696457. [58] S. Tadi´c, S. Zeˇcevi´c, M. Krsti´c, A novel hybrid MCDM model based on fuzzy DEMATEL, fuzzy ANP and fuzzy VIKOR for city logistics concept selection, Expert Systems with Applications, 41 (2014), 8112-8128. [59] Z. Taha, S. Rostam, A fuzzy AHP-ANN-based decision support system for machine tool selection in a flexible manufacturing cell, The International Journal of Advanced Manufacturing Technology, 57(5-8) (2011), 719-733. [60] V. Thakur, Framework for PESTEL dimensions of sustainable healthcare waste management: Learnings from COVID-19 outbreak, Journal of Cleaner Production, 287 (2021). DOI:10.1016/j.jclepro.2020.125562. [61] D. Tilman, K. G. Cassman, P. A. Matson, R. Naylor, S. Polasky, Agricultural sustainability and intensive production practices, Nature, 418(6898) (2002), 671-677. [62] N. Valizadeh, D. Hayati, Development and validation of an index to measure agricultural sustainability, Journal of Cleaner Production, 280(1) (2021). DOI:10.1016/j.jclepro.2020.123797. [63] P. J. Van Laarhoven, W. Pedrycz, A fuzzy extension of Saaty’s priority theory, Fuzzy Sets and Systems, 11(1-3) (1983), 229-241.
[64] Y. L. Wang, G. H. Tzeng, Brand marketing for creating brand value based on a MCDM model combining DEMATEL with ANP and VIKOR methods, Expert Systems with Applications, 39 (2012), 5600-5615. [65] E. Workie, J. Mackolil, J. Nyika, S. Ramadas, Deciphering the impact of COVID-19 pandemic on food security, agriculture, and livelihoods: A review of the evidence from developing countries, Current Research in Environmental Sustainability, 2 (2020), 100014. [66] Y. P. O. Yang, H. M. Shieh, J. D. Leu, G. H. Tzeng, A novel hybrid MCDM model combined with DEMATEL and ANP with applications, International Journal of Operations Research, 5(3) (2008), 160-168. [67] L. A. Zadeh, Fuzzy sets, Information and Control, 8 (1965), 338-353. [68] L. A. Zadeh, The concept of a linguistic variable and its application to approximate reasoning-I, Information Sciences, 9(1) (1975), 43-80. [69] Z. Zamani, S. Tayyebi, Foreign direct investment, the determining factor of sustainable development in developing countries and countries with emerging markets, Economic Research (Sustainable Growth and Development), 20(4) (2020), 33-66. (In Persian) [70] E. K. Zavadskas, A. Mardani, Z. Turskis, A. Jusoh, K. M. Nor, Development of TOPSIS method to solve complicated decision-making problems - an overview on developments from 2000 to 2015, International Journal of Information Technology and Decision Making, 15(3) (2016), 645-682. [71] W. Y. Zeng, H. S. Cui, Y. Q. Liu, Q. Yin, Z. S. Xu, Novel distance measure between intuitionistic fuzzy sets and its application in pattern recognition, Iranian Journal of Fuzzy Systems, 19(3) (2022), 127-137. DOI: 10.22111/ijfs.2022.6947. | ||
|
آمار تعداد مشاهده مقاله: 290 تعداد دریافت فایل اصل مقاله: 201 |
||