Queueing Causal Models: Comparative Analytics in Queueing Systems
提出一种数据驱动的结构因果排队模型,自动适应排队系统的数据生成过程,支持干预措施的比较分析,无需先验系统动力学知识。
Problem definition: Much of the focus of queueing theory (QT) is on performance evaluation that supports comparative analytics—that is, comparing performance measures under different interventions. However, closed-form queueing models are very sensitive to assumptions. We develop a data-driven Structural Causal Queueing Model (SCQM)—a form of structural causal models that automatically adapts to the data-generating process of queueing systems, finds causal relations, and supports comparative analytics. Numerical experiments show that the accuracy of SCQM is competitive with QT, even for examples where analytical queueing solutions are available. Methodology: We employ structural causal modeling methodology that uses queueing-relevant features to develop a simulator that replicates the system’s data-generating process without requiring prior knowledge of its dynamics. We apply Machine Learning models for identifying the parent sets and causal relations. We then provide intervention analysis using Monte Carlo simulation. Managerial implications: We use queueing knowledge to develop an accurate self-adapting data-driven performance evaluator for congested systems that requires no prior knowledge of the system dynamics. Using this method, companies can perform comparative analytics of interventions for queueing systems that may not be analytically solvable. History: This paper was selected as part of the 1RR initiative between M&SOM and the MSOM Society. This paper was part of the 2024 MSOM Service Operations Service Management Special Interest Group Conference. Supplemental Material: The online appendix is available at https://doi.org/10.1287/msom.2024.1515 .