基于边界条件估计的非瞬时变质库存改进保存技术

IF 4.6 2区 数学 Q1 MATHEMATICS, APPLIED
Ihsan Hishamuddin, S. S. Supadi, M. Omar
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引用次数: 2

摘要

如今,各种形式的保存技术使企业能够更灵活地处理有价值的易腐物品。即使有各种各样的保存技术,EOQ文献中对其实现的数学建模仍然是僵化的。本文旨在将改进的保存技术集成到非瞬时变质库存模型中,使企业的平均总周期利润最大化。改进的保存技术进一步延迟了周期内开始变质的时间,并提高了库存的耐久性,从而使作业者能够采用不那么谨慎的保存设施。这方面的另一个改进是根据手头的库存水平准确地积累保存成本。采用传统的EOQ方法,先形成目标函数,然后选择两个决策变量(周期时间和保存水平)的最优值。周期时间分为两个,不同的库存过程(恶化开始于第二个周期)。使用模型的边界条件,即区域内的第一次尝试,推导出退化开始的时间。最后用一种算法求解了一个数值算例的最优解集,以证明该模型和解的全局性。通过分析目标函数内每个单独成分的影响,对改进的保存技术的收益进行了调查。这一改进的保存技术模型通过3个不同的渠道使商业模式受益,即转向更高的盈利期,对保存的影响影响了成本,以及从不断提高的保存水平中获得的规模回报。进行敏感性分析以证明和确认研究结果。本文发现这种改进的模型有很大的好处,值得在保存库存模型的范围内进一步关注,特别是保存水平如何影响优化的传统决策变量,如周期时间或订购频率。本文的研究结果对不同的库存模型具有显著的借鉴意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improved Preservation Technology for Non-Instantaneous Deteriorating Inventory Using Boundary Condition Estimation
Various forms of preservation technology nowadays allow businesses to handle valuable perishable items with greater flexibility. Even with a wide variety of preservation techniques, the mathematical modelling of its implementation in EOQ literature remains rigid. The paper aims to integrate an improved preservation technology in a non-instantaneous deteriorating inventory model for businesses maximizing their average total cycle profit. The improved preservation technology furthers the delay to the time within the cycle where deterioration begins and enhances the durability of inventory that allows operators to employ a less prudent holding facility. Another improvement in this area is the accurate accumulation of preservation cost depending on the inventory level at hand. The conventional EOQ method of forming the objective function before choosing the optimal values for our two decision variables (Cycle time and level of preservation) is undertaken. The cycle time is split in two, differing in their inventory process (deterioration beginning in the second period). The time when deterioration begins is derived using the model's boundary conditions, a first attempt within the area. The optimal solution set is solved for a numerical example using an algorithm to demonstrate the model and prove the global nature of the solution. An investigation into the gains from the improved preservation technology is conducted by dissecting the effects within each individual component within the objective function. 3 separate channels by which this improved preservation technology modelling benefits the business model is found namely shifting to the higher profitable period, effects towards preservation affected costs and the returns to scale from successively increasing preservation levels. Sensitivity analysis is conducted to demonstrate and confirm the findings. The paper discovers great benefits from such an improved modelling that warrants further attention within the scope of preserved inventory models, especially on how levels of preservation could influence the traditional decision variable optimized such as cycle time or ordering frequency. Findings of the paper would have significant benefits to different inventory models with its own delay before deterioration and holding facility requirement.
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来源期刊
CiteScore
8.80
自引率
5.00%
发文量
18
审稿时长
6 months
期刊介绍: Applied and Computational Mathematics (ISSN Online: 2328-5613, ISSN Print: 2328-5605) is a prestigious journal that focuses on the field of applied and computational mathematics. It is driven by the computational revolution and places a strong emphasis on innovative applied mathematics with potential for real-world applicability and practicality. The journal caters to a broad audience of applied mathematicians and scientists who are interested in the advancement of mathematical principles and practical aspects of computational mathematics. Researchers from various disciplines can benefit from the diverse range of topics covered in ACM. To ensure the publication of high-quality content, all research articles undergo a rigorous peer review process. This process includes an initial screening by the editors and anonymous evaluation by expert reviewers. This guarantees that only the most valuable and accurate research is published in ACM.
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