备份
采购
范围(计算机科学)
供应链
业务
风险分析(工程)
可靠性(半导体)
征求建议书
钥匙(锁)
生产(经济)
运营管理
供应链管理
可靠性工程
决策模型
决策支持系统
过程管理
供应链风险管理
运筹学
总拥有成本
风险管理
工作(物理)
供应商关系管理
维数(图论)
计算机科学
合同管理
标识
DOI:10.1061/jmenea.meeng-7030
摘要
In project environments characterized by frequent change orders and inherently complex procurement processes, effective procurement decision making is critical for managing uncertainty and mitigating disruptions. One key strategy for reducing the risk of delays due to scope changes is the use of backup suppliers, which helps ensure timely material delivery even when primary suppliers underperform. However, maintaining backup suppliers involves substantial costs, including contract management, logistics, and added supply chain complexity. Balancing the costs of securing backup suppliers with the benefits of minimizing delays is a crucial challenge in projects. Despite its significance, existing decision-making models predominantly emphasize the operational continuity of production lines and supply chains, often neglecting the unique challenges of project-based procurement. This research addresses this gap by developing a decision-making model grounded in the concept of reliability cost/worth to inform procurement strategies in projects. The model determines the optimal number of backup suppliers required to minimize project delays and associated costs. To validate its practical application, the model was implemented in a real-world construction project. Scenario analyses revealed how achieving an optimal number of backup suppliers enhances decision making, reduces delays, and minimizes overall costs. By integrating reliability cost/worth assessments into procurement planning, this research provides a practical tool for decision makers while advancing theoretical insights into the role of reliability theory in decision-making processes within the project-based procurement context.
科研通智能强力驱动
Strongly Powered by AbleSci AI