A joint inventory model with reliability, carbon emission, and inspection errors in a defective production system

Q3 Decision Sciences

Yugoslav Journal of Operations Research Pub Date : 2020-06-29 DOI:10.2298/yjor190415020s

Isha Sangal, Bijoy Kumar Shaw, B. Sarkar, Rekha Guchhait

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引用次数: 5

Abstract

Nowadays, environment is an important concern of industries parallel to the economy. In this direction, a joint vendor-buyer model is exhibited where the system reliability and inspection errors are discussed along with the carbon emission issue. The main goal of this model is to obtain the optimum investment, shipment size, reliability and lead time even the inspection errors present in the system. A reliability dependent unit production cost is utilized to raise the machinery system reliability. Transportation of products use the single-setup-multi-unequal-delivery (SSMUD) policy to reduce carbon emission. Mathematical problem is solved analytically and a quasi-closed-form solution is found. Total cost is minimized with the optimum level of decision variables. Globality of the decisions is proved by Hessian matrix. Results demonstrate that the total cost is minimized even though the optimum solutions are obtained in quasi-closed- form. Numerical example is elaborated to test the validity of the model and to clarify the comparison among SSSD, SSMD, and SSMUD policies.

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有缺陷生产系统中具有可靠性、碳排放和检验误差的联合库存模型

如今，环境是与经济并行的行业所关注的重要问题。在此方向上，展示了一个联合的供应商-买方模型，其中讨论了系统可靠性和检测误差以及碳排放问题。该模型的主要目标是获得最佳的投资，出货规模，可靠性和交货时间，甚至在系统中存在的检验错误。利用与可靠性相关的单位生产成本来提高机械系统的可靠性。产品运输采用单次安装多次不等交付(SSMUD)政策，减少碳排放。对数学问题进行了解析求解，并找到了一个准闭解。总成本以决策变量的最优水平最小化。用Hessian矩阵证明了决策的全局性。结果表明，即使在拟封闭形式下得到最优解，总成本也是最小的。通过数值算例验证了模型的有效性，并阐明了SSSD、SSMD和SSMUD策略之间的比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Yugoslav Journal of Operations Research Decision Sciences-Management Science and Operations Research

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

24 weeks