Discrete Global Optimization Problems with a Modified Discrete Filled Function

Yue, Yang; He, Meng-Li; Gao, Yuelin

doi:10.1007/s40305-015-0085-z

Cited by 5 publications

(1 citation statement)

References 26 publications

(36 reference statements)

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“…However, the filled function contains two parameters and the algorithm relies heavily on the selection of the parameters, it requires multiple adjustments in the iterative process to obtain the appropriate parameter values, which requires a large amount of calculation. In response to this shortcoming, later scholars made further improvements, and successively proposed filled functions [12,3,15,14,6,8,19,2,7,11,4,16,18,17,10,13,5]: The filled function proposed by paper [12] contains only one adjustable parameter, but the filled function is vulnerable to exponential terms. If the exponential term is too large, it is easy to cause memory overflow.…”

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confidence: 99%

Filled function method to optimize supply chain transportation costs

Shang

et al. 2022

JIMO

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The transportation-based supply chain model can be formulated as the constrained nonlinear programming problems. When solving such problems, the classic optimization algorithms are often limited to local minimums, causing the difficulty to find the global optimal solution. Aiming at this problem, a filled function method with a single parameter is given to cross the local minimum. Based on the characteristics of the filled function, a new filled function algorithm that can obtain the global optimal solution is designed. Numerical experiments verify the feasibility and effectiveness of the algorithm. Finally, the filled function algorithm is applied to the solution of supply chain problems, and the numerical results show that the algorithm can also address decision-making problems of supply chain transportation effectively. 2020 Mathematics Subject Classification. 90C30.

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