Add to ORKGMotivated by call center cosourcing problems, we consider a service network operated under an overflow mechanism. Calls are first routed to an in-house (or dedicated) service station that has a finite waiting room. If the waiting room is full, the call is overflowed to an outside provider (an overflow station) that might also be serving overflows from other stations. We establish approximations for overflow networks with many servers under a resource-pooling assumption that stipulates, in our context, that the fraction of overflowed calls is nonnegligible. Our two main results are (i) an approximation for the overflow processes via limit theorems and (ii) asymptotic independence between each of the in-house stations and the overflow station...
This thesis reports on an investigation into the teletraffic modelling and performance of layered ce...
In this paper, we analyze the performance of call centers of financial service providers with two le...
We develop a framework for asymptotic optimization of a queueing system. The motivation is the staff...
We consider how two networked large-scale service systems that normally operate separately, such as ...
In this paper, we aim to evaluate the performance of a call center composed of specialized and cross...
This dissertation considers how two networked large-scale service systems, such as call centers, tha...
We consider a fluid queue fed by a superposition of $n$ homogeneous on-off sources with generally di...
This paper analyzes the performance of call centers with impatient customers, two levels of support...
In a recent paper we considered two networked service systems, each having its own customers and des...
We consider an automatic overload control for two large service systems modeled as multiserver queue...
This is an online supplement to the main paper, which considers an automatic overload control for tw...
We consider an automatic overload control for two large service systems modeled as multi-server queu...
We study an ordinary differential equation (ODE) arising as the many-server heavy-traffic fluid limi...
Bandwidth-sharing networks as considered by Massoulié and Roberts provide a natural modeling framewo...
Temporary overload situations in queues can be approximated by fluid queues. We strengthen earlier r...
This thesis reports on an investigation into the teletraffic modelling and performance of layered ce...
In this paper, we analyze the performance of call centers of financial service providers with two le...
We develop a framework for asymptotic optimization of a queueing system. The motivation is the staff...
We consider how two networked large-scale service systems that normally operate separately, such as ...
In this paper, we aim to evaluate the performance of a call center composed of specialized and cross...
This dissertation considers how two networked large-scale service systems, such as call centers, tha...
We consider a fluid queue fed by a superposition of $n$ homogeneous on-off sources with generally di...
This paper analyzes the performance of call centers with impatient customers, two levels of support...
In a recent paper we considered two networked service systems, each having its own customers and des...
We consider an automatic overload control for two large service systems modeled as multiserver queue...
This is an online supplement to the main paper, which considers an automatic overload control for tw...
We consider an automatic overload control for two large service systems modeled as multi-server queu...
We study an ordinary differential equation (ODE) arising as the many-server heavy-traffic fluid limi...
Bandwidth-sharing networks as considered by Massoulié and Roberts provide a natural modeling framewo...
Temporary overload situations in queues can be approximated by fluid queues. We strengthen earlier r...
This thesis reports on an investigation into the teletraffic modelling and performance of layered ce...
In this paper, we analyze the performance of call centers of financial service providers with two le...
We develop a framework for asymptotic optimization of a queueing system. The motivation is the staff...