Crisp and interval inventory models for ameliorating item with Weibull distributed amelioration and deterioration via different variants of quantum behaved particle swarm optimization-based techniques

IF 1.8 4区数学 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Mathematical and Computer Modelling of Dynamical Systems Pub Date : 2019-11-02 DOI:10.1080/13873954.2019.1692226

Rajan Mondal, A. Shaikh, A. K. Bhunia

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引用次数: 17

Abstract

ABSTRACT This paper presents two inventory models for ameliorating items under crisp and interval environments. In these models, three-parameter Weibull distribution is considered to represent both the amelioration and deterioration rates. In crisp, an inventory model is formulated for ameliorating item with fixed values of different inventory parameters. Due to uncertainty, these parameters may not be fixed. In this context, another inventory model with interval valued parameters is developed. Also, demand is dependent on the selling price and advertisement frequency of the product. The corresponding profit maximization problem has been developed. For solving the problem, different variants of quantum behaved particle swarm optimization technique (QPSO) are applied. To validate the proposed models, two numerical examples are considered and solved. The results are compared for different variants of QPSO techniques. Finally, graphical sensitivity analyses are presented to study the impact of several system parameters on cycle length, initial stock level along with average profit for both the models.

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基于量子行为粒子群优化技术的Weibull分布式改进和劣化改进的脆库存和间隔库存模型

摘要:本文提出了两种改善脆和间隔环境下物品的库存模型。在这些模型中，三参数威布尔分布被认为代表了改善率和恶化率。简而言之，建立了一个改善不同库存参数固定值物品的库存模型。由于不确定性，这些参数可能不是固定的。在此背景下，提出了另一种具有区间值参数的库存模型。此外，需求取决于产品的销售价格和广告频率。提出了相应的利润最大化问题。为了解决这一问题，应用了不同变体的量子行为粒子群优化技术(QPSO)。为了验证所提出的模型，考虑并求解了两个数值算例。比较了QPSO技术的不同变体的结果。最后，通过图形敏感性分析，研究了系统参数对两种模型的周期长度、初始库存水平和平均利润的影响。

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来源期刊

Mathematical and Computer Modelling of Dynamical Systems 数学-计算机：跨学科应用

CiteScore

3.80

自引率

5.30%

发文量

审稿时长

>12 weeks

期刊介绍： Mathematical and Computer Modelling of Dynamical Systems (MCMDS) publishes high quality international research that presents new ideas and approaches in the derivation, simplification, and validation of models and sub-models of relevance to complex (real-world) dynamical systems. The journal brings together engineers and scientists working in different areas of application and/or theory where researchers can learn about recent developments across engineering, environmental systems, and biotechnology amongst other fields. As MCMDS covers a wide range of application areas, papers aim to be accessible to readers who are not necessarily experts in the specific area of application. MCMDS welcomes original articles on a range of topics including: -methods of modelling and simulation- automation of modelling- qualitative and modular modelling- data-based and learning-based modelling- uncertainties and the effects of modelling errors on system performance- application of modelling to complex real-world systems.