Abstract

Service networks are common throughout the modern world, yet understanding how their individual services effect each other and contribute to overall system performance can be difficult. An important metric in these systems is the quality of service. This is an often overlooked measure when modelling and relates to how customers are affected by a service. Presented is a novel perspective for evaluating the performance of multi-class queueing networks through a combination of operational performance and service quality—denoted the “flow of outcomes”. Here, quality is quantified by customers moving between or remaining in classes as a result of receiving service or lacking service. Importantly, each class may have different flow parameters, hence the positive/negative impact of service quality on the system’s operational performance is captured. A fluid–diffusion approximation for networks of stochastic queues is used since it allows for several complex flow dynamics: the sequential use of multiple services; abandonment and possible rejoin; reuse of the same service; multiple customers classes; and, class and time dependent parameters. The scalability of the approach is a significant benefit since, the modelled systems may be relatively large, and the included flow dynamics may render the system analytically intractable or computationally burdensome. Under the right conditions, this method provides a framework for quickly modelling large time-dependent systems. This combination of computational speed and the “flow of outcomes” provides new avenues for the analysis of multi-class service networks where both service quality and operational efficiency interact.

Highlights

  • Throughout the modern world service systems such as health care services, telecommunications and computer networks are common and of significant importance to world economies

  • These approximations provide an efficient method for modelling systems of queues with several complex flow dynamics including: the sequential use of multiple services, abandonment, rejoin, reuse, multiple classes, and class and time dependent parameters

  • In this paper we have presented a method for modelling queues of heterogeneous customers who may change class throughout the service process

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Summary

Introduction

Throughout the modern world service systems such as health care services, telecommunications and computer networks are common and of significant importance to world economies. These systems consist several, semi-autonomous services that each have a distinct function yet are linked by an overarching purpose to which they contribute to achieving. For such systems, the quality of the service provided/received by customers is important (Seth et al 2005; Ghotbabadi et al 2015). The purpose of services is partly to maintain and improve patient health; key service outcomes here may be the clinical impact on patient health (Palmer et al 2017)

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