A.C.C. van Wijk scite author profile

A typical polling system consists of a number of queues, attended by a single server in a fixed order. The vast majority of papers on polling systems focusses on Poisson arrivals, whereas very few results are available for general arrivals. The current study is the first one presenting simple closed-form approximations for the mean waiting times in polling systems with renewal arrival processes, performing well for all workloads. The approximations are constructed using heavy traffic limits and newly developed light traffic limits. The closed-form approximations may prove to be extremely useful for system design and optimisation in application areas as diverse as telecommunication, maintenance, manufacturing and transportation.

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A cash-constrained stochastic inventory model with consumer loans and supplier credits: the case of nanostores in emerging markets

Boulaksil

Wijk

2018

International Journal of Production Research

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A polling model with smart customers

et al. 2010

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In this paper we consider a single-server, cyclic polling system with switch-over times. A distinguishing feature of the model is that the rates of the Poisson arrival processes at the various queues depend on the server location. For this model we study the joint queue length distribution at polling epochs and at the server's departure epochs. We also study the marginal queue length distribution at arrival epochs, as well as at arbitrary epochs (which is not the same in general, since we cannot use the PASTA property). A generalised version of the distributional form of Little's law is applied to the joint queue length distribution at customer's departure epochs in order to find the waiting time distribution for each customer type. We also provide an alternative, more efficient way to determine the mean queue lengths and mean waiting times, using Mean Value Analysis. Furthermore, we show that under certain conditions a Pseudo-Conservation Law for the total amount of work in the system holds. Finally, typical features of the model under consideration are demonstrated in several numerical examples.

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Optimal Control of a Server Farm

Adan

Kulkarni

Wijk

2013

INFOR: Information Systems and Operational Research

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Optimal lateral transshipment policies for a two location inventory problem with multiple demand classes

Wijk

Adan

Houtum

2019

European Journal of Operational Research

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A.C.C. van Wijk

Closed-form waiting time approximations for polling systems

A cash-constrained stochastic inventory model with consumer loans and supplier credits: the case of nanostores in emerging markets

A polling model with smart customers

Optimal Control of a Server Farm

Optimal lateral transshipment policies for a two location inventory problem with multiple demand classes

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