Abstract
An innovative method, namely, level maintain method, is proposed for finding all efficient solutions to a bottleneck-rough cost interval integer transportation problem in which the unit transportation cost, supply, and demand parameters are rough interval integers and the transportation time parameter is an interval integer. The solving procedure of the suggested method is expressed and explained with a numerical example. The level maintain method will dispense the necessary determined support to decision-makers when they are handling time-related logistic problems in rough nature.
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References
Akilbasha, A., Natarajan, G., Pandian, P.: Finding an optimal solution of the interval integer transportation problems with rough nature by split and separation method. International Journal of Pure and Applied Mathematics. 106, 1–8 (2016)
Chanas, S., Delgado, M., Verdegayand, J.L., Vila, M.A.: Interval and fuzzy extensions of classical transportation problems. TranspPlann Technol. 17, 203–218 (1993)
Hongwei Lu., Guohe Huang., Li He.: An inexact rough-interval fuzzy linear programming method for generating conjunctive water-allocation strategies to agricultural irrigation systems. Applied Mathematical Modelling. 35, 4330–4340 (2011)
Kundu, P., Kar, S., Maiti, M.: Some solid transportation model with crisp and rough costs. World Academy of Science, Engineering and Technology. 73, 185–192 (2013)
Moore, R.E.: Method and applications of interval analysis. SLAM, Philadelphia, PA (1979)
Pandian, P., Natarajan, G.: A new algorithm for finding a fuzzy optimal solution for fuzzy transportation problems. Appl. Math. Sci. 4, 79–90 (2010)
Pandian, P., Natarajan, G.: A new method for finding an optimal solution for transportation problems. International Journal of Math. Sci. & Engg. Appls. 4, 59–65 (2010)
Pandian, P., Natarajan, G.: A new method for finding an optimal solution of fully interval integer transportation problems. Appl. Math. Sci. 4, 1819–1830 (2010)
Pandian, P., Natarajan, G.: A new method for solving bottleneck-cost transportation problems. International Mathematical Forum. 6, 451–460 (2011)
Pandian, P., Natarajan, G., Akilbasha, A.: Fully rough integer interval transportation problems. International Journal Of Pharmacy and Technology. 8, 13866–13876 (2016)
Pawlak, Z.: Rough sets. International Journal of Information and Computer Science. 11, 341–356 (1981)
Sengupta, A., Pal, T.K.: Interval-valued transportation problem with multiple penalty factors. VU Journal of Physical Sciences. 9, 71–81 (2003)
Shanmugasundari, M., Ganesan, K.: A novel approach for the fuzzy optimal solution of fuzzy transportation problem. Int. J. Eng. Res. Appl. 3, 1416–1421 (2013)
Subhakanta Dash., Mohanty, S.P.: Transportation programming under uncertain environment. International Journal of Engineering Research and Development. 7, 22–28 (2013)
Sudhagar, S., Ganesan, K.: A fuzzy approach to transport optimization problem. Optimization and Engineering. 17, 965–980 (2016)
Youness, E.: Characterizing solutions of rough programming problems. European Journal of Operational Research. 168, 1019–1029 (2006)
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Akilbasha, A., Natarajan, G., Pandian, P. (2018). On Bottleneck-Rough Cost Interval Integer Transportation Problems. In: Madhu, V., Manimaran, A., Easwaramoorthy, D., Kalpanapriya, D., Mubashir Unnissa, M. (eds) Advances in Algebra and Analysis. Trends in Mathematics. Birkhäuser, Cham. https://doi.org/10.1007/978-3-030-01120-8_33
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DOI: https://doi.org/10.1007/978-3-030-01120-8_33
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