Visible to the public A Service System with Randomly Behaving On-demand Agents

TitleA Service System with Randomly Behaving On-demand Agents
Publication TypeConference Paper
Year of Publication2016
AuthorsNguyen, Lam M., Stolyar, Alexander L.
Conference NameProceedings of the 2016 ACM SIGMETRICS International Conference on Measurement and Modeling of Computer Science
PublisherACM
Conference LocationNew York, NY, USA
ISBN Number978-1-4503-4266-7
Keywordscall centers, common quadratic lyapunov function, exponential stability, exponentiation, fluid limit, on-demand agent invitation, pubcrawl, Resiliency, service systems, switched linear systems
Abstract

We consider a service system where agents (or, servers) are invited on-demand. Customers arrive as a Poisson process and join a customer queue. Customer service times are i.i.d. exponential. Agents' behavior is random in two respects. First, they can be invited into the system exogenously, and join the agent queue after a random time. Second, with some probability they rejoin the agent queue after a service completion, and otherwise leave the system. The objective is to design a real-time adaptive agent invitation scheme that keeps both customer and agent queues/waiting-times small. We study an adaptive scheme, which controls the number of pending agent invitations, based on queue-state feedback. We study the system process fluid limits, in the asymptotic regime where the customer arrival rate goes to infinity. We use the machinery of switched linear systems and common quadratic Lyapunov functions to derive sufficient conditions for the local stability of fluid limits at the desired equilibrium point (with zero queues). We conjecture that, for our model, local stability is in fact sufficient for global stability of fluid limits; the validity of this conjecture is supported by numerical and simulation experiments. When the local stability conditions do hold, simulations show good overall performance of the scheme.

URLhttp://doi.acm.org/10.1145/2896377.2901484
DOI10.1145/2896377.2901484
Citation Keynguyen_service_2016