Advanced search
Publication Cover
Journal of Management Analytics Volume 7, 2020 - Issue 1
Submit an article Journal homepage
99
Views
7
CrossRef citations to date
0
Altmetric
Articles

Multi-item fuzzy inventory model for deteriorating items in multi-outlet under single management

Ajoy Kumar MaitiDepartment of Mathematics, Raja Narendra Lal Khan Women’s College, Paschim Medinipur, IndiaCorrespondence[email protected]
View further author information
Pages 44-68 | Received 30 May 2018, Accepted 27 Nov 2019, Published online: 02 Jan 2020

References

  • Balkhi, Z. T. (1998). On the global optimality of a general deterministic production lot-size inventory model for a deteriorating items. A production lot size inventory model for deteriorating items. Belgian Journal of Operations Research, 381, 33–44.
  • Balkhi, Z. T. (2004). An optimal solution of a general lot size inventory model with deteriorated and imperfect products, taking into account inflation and time value of money. International Jouurnal of Systems Science, 35(2), 87–96.
  • Bera, A. K., & Jana, D. K. (2017). Multi-item imperfect production inventory model in Bi-fuzzy environment. Opsearch, 54(2), 260–282.
  • Bera, U. K., & Maiti, A. K. (2012). A soft computing approach to multi-item fuzzy EOQ model incorporating discount. International Journal of Information and Decision Sciences, 4(4), 313–328.
  • Chakraborty, D., Jana, D. K., & Roy, T. K. (2015). Multi-item integrated supply chain model for deteriorating items with stock dependent demand under fuzzy random and bifuzzy environments. Computers & Industrial Engineering, 88, 166–180.
  • Chang, C. T. (2004). An EOQ model with deteriorating items under inflation when supplier credits linked to order quantity. International Journal of Production Economics, 88, 307–316.
  • Chang, C. T., Ouyang, L. Y., & Teng, J. T. (2003). An EOQ model for deteriorating items under supplier credits linked to ordering quantity. Applied Mathematical Modelling, 27, 983–996.
  • Chou, S. Y., Julian, C. P., & Hung, K. C. (2009). A note on fuzzy inventory model with storage space and budget constraints. Applied Mathematical Modelling, 33(11), 4069–4077.
  • Churchman, C. W., Ackoff, R. L., & Arnoff, E. L. (1957). Introduction to operations research. New York: Wiley.
  • Das, K., & Maiti, M. (2003). Inventory of differential item sold from two shops under single management with shortages and variable demand. Applied Mathematical Modelling, 27, 535–549.
  • Das, K., Roy, T. K., & Maiti, M. (2000). Multi-item inventory model with quantity dependent inventory costs and demand dependent unit cost under imprecise objective and restrictions: A Geometrid programming approach. Production Planning & Control, 11(8), 781–788.
  • Datta, T. K., & Pal, A. K. (1988). Order level inventory system with power demand pattern for items with variable rate of deterioration. Indian Journal of Pure and Applied Mathematics, 19(1), 1043–1053.
  • Deb, K. (2001). Multi-objective optimization using evolutionary algorithm. New York: John Wiley & Sons.
  • Deb, K., Pratap, A., Agarwal, S., & Meyarivan, T. (2002). A fast and elitist multi-objective genetic algorithm: NSGA-II. IEEE Transactions on Evolutionary Computation, 6(2), 182–197.
  • Dubois, D., & Prade, H. (1983). Ranking fuzzy numbers in the setting of possibility theory. Information Sciences, 30, 183–224.
  • Dubois, D., & Prade, H. (1997). The three semantics of fuzzy sets. Fuzzy Sets and Systems, 90, 141–150.
  • El-Wakeel, M. F., & Al-yazidi, K. O. (2016). Fuzzy constrained probabilistic inventory models depending on trapezoidal fuzzy numbers. Advances in Fuzzy Systems, 2016, 1–10. doi: 10.1155/2016/3673267
  • Federgruen, A., Groenevelt, H., & Tijma, H. C. (1984). Coordinated replenishments in a multi-item inventory system with compound Poisson demands. Management Science, 30(3), 344–357.
  • Garai, G., Chakraborty, D., & Roy, T. K. (2016). A multi-item periodic review probabilistic fuzzy inventory model with possibility and necessity constraints. International Journal of Business Forecasting and Marketing Intelligence, 2(3), 175–189.
  • Garai, G., Chakraborty, D., & Roy, T. K. (2018a). A multi-item multi-objective inventory model in exponential fuzzy environment using chance operator technique. The Journal of Analysis, 1–27.
  • Garai, G., Chakraborty, D., & Roy, T. K. (2018b). Possibility-necessity-credibility measures on generalized intuitionistic fuzzy number and their applications to multi-product manufacturing system. Granular Computing, 3(4), 285–299.
  • Garai, G., Chakraborty, D., & Roy, T. K. (2019). Multi-objective inventory model with both stock dependent demand rate and holding cost rate under fuzzy random environment. Annals of Data Science, 6(1), 61–81.
  • Giri, B. C., Pal, S., Goswami, A., & Chaudhuri, K. S. (1996). An inventory model for deteriorating items with stock dependent demand rate. European Journal of Operational Research, 95, 604–610.
  • Goldberg, D. E. (1989). Genetic algorithms: Search, optimization and machine learning. Massachusetts: Addison Wesley.
  • Gupta, P. N., & Agarwal, R. N. (2000). An order level inventory model with time dependent deterioration. OPSEARCH, 37(4), 351–359.
  • Jana, D. K., & Das, B. (2017). Two storage multi-item inventory model with hybrid number and nested price discount via hybrid heuristic algorithm. Annals of Operations Research, 248(1–2), 281–304.
  • Kar, S., Bhunia, A. K., & Maiti, M. (2001). Inventory of multi-deteriorating items sold from two shops under single management with constraints on space and investment. Computers & Operations Research, 28, 1203–1221.
  • Kumar, N., & Kumar, S. (2016a). Effect of learning and salvage worth on an inventory model for deteriorating items with inventory-dependent demand rate and partial backlogging with capability constraints. Uncertain Supply Chain Management, 4, 123–136.
  • Kumar, N., & Kumar, S. (2016b). Inventory model for non- instantaneous deteriorating items, stock dependent demand, partial backlogging, and inflation over a finite time horizon. International Journal of Supply and Operations Management, 3, 1168–1191.
  • Levin, R. I., Mclaughlin, C. P., Lamone, R. P., & Kottas, J. F. (1972). Production/operations management: Contemporary policy for managing operating system. New York: McGraw-Hill.
  • Liu, B., & Iwamura, K. (1998a). Chance constrained programming with fuzzy parameters. Fuzzy Sets and Systems, 94, 227–237.
  • Liu, B., & Iwamura, K. (1998b). A note on chance constrained programming with fuzzy coefficients. Fuzzy Sets and Systems, 100, 229–233.
  • Liu, L., & Yuan, X. (2000). Coordinated replenishments in inventory systems with correlated demands. European Journal of Operational Research, 123(3), 490–503.
  • Maiti, A. K., & Maiti, M. (2008). Discounted multi-item inventory model via genetic algorithm in constraint’s bounded domain. International Journal of Computer Mathematics, 85(9), 1341–1353.
  • Maiti, A. K., Maiti, M. K., & Maiti, M. (2014). An EOQ model of an item with imprecise seasonal time via genetic algorithm. International Journal of Operational Research, 19(3), 358–384.
  • Maiti, M. K., & Maiti, M. (2006). Fuzzy inventory model with two warehouses under possibility constraints. Fuzzy Sets and Systems, 157, 52–73.
  • Maiti, M. K., & Maiti, M. (2007). Two storage inventory model with lot size dependent fuzzy lead time under possibility constraints via genetic algorithm. European Journal of Operational Research, 179(2), 352–371.
  • Mandal, B. N., & Phaujder, S. (1989). An inventory model for deteriorating items and stock- dependent consumption rate. Journal of the Operational Research Society, 40, 483–488.
  • Mandal, M., & Maiti, M. (2000). Inventory of damageable items with variable replenishment and stock dependent demand. Asia Pacific Journal of Operational Research, 17, 41–54.
  • Maragatham, M., & Lakshmidevi, P. K. (2014). A fuzzy inventory model for deteriorating items with price dependent demand. International Journal of Fuzzy Mathematical Archive, 5(1), 39–47.
  • Michalewicz, Z. (1992). Genetic Algorithms + data structures = evolution programs. Berlin: Springer.
  • Mohon, C. (2000). Optimization in fuzzy-stochastic environment and its importance in present day industrial scenario, Proceedings on “Mathematics and its application in industry and business”. India: Narosa Publishing House.
  • Muniappan, P., Uthayakumar, R., & Ganesh, S. (2015). An EOQ model for deteriorating items with inflation and time value of money considering time dependent deteriorating rate and delay payments, Systems Science and Control.
  • Padmanabhan, G., & Vrat, P. (1990). Analysis of multi-item inventory system under resource constraint: A non-linear goal programming approach. Engineering Cost and Production Management, 13, 104–112.
  • Pakhira, N., Maiti, M. K., & Maiti, M. (2018). Uncertain multi-item supply chain with two level trade credit under promotional cost sharing. Computers & Industrial Engineering, 118, 451–463.
  • Pal, B., Sana, S. S., & Chaudhuri, K. S. (2017). A stochastic production inventory model for deteriorating items with products’ finite life-cycle. RAIRO-Operations Research, 51(3), 669–684.
  • Pervin, M., Roy, S. K., & Weber, G. W. (2019). Multi-item deteriorating two-echelon inventory model with price- and stock-dependent demand: A trade-credit policy. Journal of Industrial & Management Optimization, 15(3), 1345–1373.
  • Rajan, S. R., & Uthayakumar, R. (2017). Optimal pricing and replenishment policies for instantaneous deteriorating items with backlogging and trade credit under inflation. International Journal of Industrial Engineering, 13(4), 427–443.
  • Saha, S., & Chakraborti, T. (2012). Fuzzy Eoq model for time dependent deteriorating items and time dependent demand with shortages. IOSR Journal of Mathematics, 2(4), 46–54.
  • Schary, P. B., & Becker, R. C. (1972). Distribution and final demand. The influence of availability. Mississippi Valley Journal of Bussiness Economics, 8, 17–26.
  • Sharmila, D., & Uthayakumar, R. (2015). Inventory model for deteriorating items involving fuzzy with shortages and exponential demand. International Journal of Supply and Operations Management, 2(3), 888–904.
  • Shenoy, D., & Mal, H. (2019). A multi-item inventory model for small business-a perspective from India. International Journal of Inventory Research, 5(3), 188.
  • Shukla, H. S., Tripathi, R. P., & Sang, N. (2017). EOQ model with stock-level dependent demand and different holding cost functions. International Journal of Operations Research and Information System, 8(4), 59–75.
  • Silver, E. A., & Peterson, R. (1985). Decision systems for inventory management and production planning. New York: John Wiley.
  • Tamjidzad, S., & Mirmohammadi, S. H. (2018). A two-storage heuristic approach for a multi-item inventory system with limited budgetary resource and all units discounts. Computers & Industrial Engineering, 124, 293–303.
  • Tripathi, P. R., Singh, D., & Aneja, S. (2018). Inventory models for stock dependent demand and time varying holding cost under different trade credits. Yugoslav Journal of Operations Research, 28(1), 139–151.
  • Urban, T. L. (1992). An inventory model with an inventory level dependent demand rate and related terminal conditions. Journal of Operational Research Society, 43, 721–724.
  • Wolfe, H. B. (1968). A model for control of style merchandise. Industrial Management Review, 9, 69–82.
  • Yadav, R. K., Singh, Y., & Gautam, S. K. (2016). Multi-item inventory model of deteriorating items with partial backordering and linear demand. IOSR Journal of Mathematics, 12(3), 36–43.
  • Yadavalli, V. S. S., Van Schoor, C. D. W., & Udayabaskaran, S. (2006). A substitutable two-product inventory system with joint-ordering policy and a common demand. Applied Mathematics and Computation, 172(2), 1257–1271.
  • Yang, C. (2014). An inventory model with both stock dependent demand rate and stock dependent holding cost rate. International of Production Economics, 155, 214–221.
  • Zadeh, L. A. (1978). Fuzzy sets as a basis for a theory of possibility. Fuzzy Sets and Systems, 1, 3–28.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.