On Queues with a Random Capacity: Some Theory, and An Application (Technical Appendix)

IF 0.1 4区 工程技术 Q4 ENGINEERING, MANUFACTURING Manufacturing Engineering Pub Date : 2017-09-10 DOI:10.2139/ssrn.3034807
Rouba Ibrahim
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Abstract

Abstract from the main paper: One standard assumption in workforce management is that the firm can dictate to workers when to show up to work. However, that assumption is challenged in modern business environments, such as those arising in the sharing economy, where workers enjoy various degrees of flexibility, including the right to decide when to work. For example, a ride-sharing service cannot impose on its drivers to be on the road at specific times; similarly, a virtual call-center manager cannot direct her agents to be available for select shifts. When self-scheduling is allowed, the number of workers available in any time period is uncertain. In this chapter, we are concerned with the effective management of service systems where capacity, i.e., the number of available agents, is random. We rely on a queueing-theoretic framework, because customers are time-sensitive and delays are ubiquitous in the services industry, and focus on the performance analysis and control of a queueing system with a random number of servers. In particular, we begin by surveying some theoretical results on the control of queueing systems with uncertainty in parameters (here, the number of servers). Then, we illustrate how to apply those theoretical results to study the problems of staffing and controlling queueing systems with self-scheduling servers and impatient, time-sensitive, customers.
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关于随机容量队列:一些理论及应用(技术附录)
摘要:劳动力管理的一个标准假设是,公司可以命令工人什么时候去上班。然而,这一假设在现代商业环境中受到了挑战,比如在共享经济中出现的环境,员工享有不同程度的灵活性,包括决定何时工作的权利。例如,拼车服务不能强迫司机在特定时间上路;类似地,虚拟呼叫中心经理不能指示她的座席在选择班次时可用。当允许自我调度时,任何时间段内可用的工人数量都是不确定的。在本章中,我们关注服务系统的有效管理,其中容量(即可用代理的数量)是随机的。我们依赖于排队理论框架,因为客户是时间敏感的,延迟在服务行业中是无处不在的,并专注于具有随机数量服务器的排队系统的性能分析和控制。特别是,我们首先考察了一些关于参数不确定(这里是服务器数量)的排队系统控制的理论结果。然后,我们说明了如何将这些理论结果应用于具有自调度服务器和不耐烦的、时间敏感的客户的排队系统的人员配置和控制问题。
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
Manufacturing Engineering
Manufacturing Engineering 工程技术-工程:制造
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6-12 weeks
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