Add to ORKGWe consider a queueing system with J parallel servers S = {m1,..., mJ}, and with customer types C = {a, b,...}. A bipartite graph G describes which pairs of server-customer types are compatible. We consider FCFS-ALIS policy: A server always picks the first, longest waiting compatible customer, and a customer is always assigned to the longest idle compatible server. We assume Poisson arrivals and server dependent exponential service times. We derive an explicit product-form expression for the stationary distribution of this sys-tem when service capacity is sufficient. We also calculate fluid limits of the system under overload, to show that local steady state exists. We distinguish the case of complete resource pooling when all the customers...
Customers arriving in a Poisson stream are served one by one exponentially by one of the m servers S...
We consider a system of parallel queues with Poisson arrivals and exponentially distributed service ...
We consider a single-server queueing system with Poisson arrivals in which the speed of the server d...
We consider a queueing system with servers S={m<sub>1</sub>,...,m<sub>J</sub>}, and with customer ty...
We consider a queueing system with servers S={m1,...,mJ}, and with customer types C={a,b,...}. A bip...
We consider a queueing system with servers S = {m_1, …, m_J}, and with customer types C = {a, b, …}....
International audienceWe consider the following skill based parallel service queue-ing system: Custo...
We study a parallel service queueing system with servers of types $s_1,\ldots,s_J$, customers of typ...
We consider three parallel service models in which customers of several types are served by several ...
We study a parallel queueing system with multiple types of servers and customers. A bipartite graph ...
We study an overloaded service system with servers of types S={s1,…,sJ}, serving customers of types ...
The N-system with independent Poisson arrivals and exponential server-dependent service times under ...
Abstract Consider a number of parallel queues, each with an arbitrary capacity and multiple identica...
Customers arriving in a Poisson stream are served one by one exponentially by one of the m servers S...
We consider a system of parallel queues with Poisson arrivals and exponentially distributed service ...
We consider a single-server queueing system with Poisson arrivals in which the speed of the server d...
We consider a queueing system with servers S={m<sub>1</sub>,...,m<sub>J</sub>}, and with customer ty...
We consider a queueing system with servers S={m1,...,mJ}, and with customer types C={a,b,...}. A bip...
We consider a queueing system with servers S = {m_1, …, m_J}, and with customer types C = {a, b, …}....
International audienceWe consider the following skill based parallel service queue-ing system: Custo...
We study a parallel service queueing system with servers of types $s_1,\ldots,s_J$, customers of typ...
We consider three parallel service models in which customers of several types are served by several ...
We study a parallel queueing system with multiple types of servers and customers. A bipartite graph ...
We study an overloaded service system with servers of types S={s1,…,sJ}, serving customers of types ...
The N-system with independent Poisson arrivals and exponential server-dependent service times under ...
Abstract Consider a number of parallel queues, each with an arbitrary capacity and multiple identica...
Customers arriving in a Poisson stream are served one by one exponentially by one of the m servers S...
We consider a system of parallel queues with Poisson arrivals and exponentially distributed service ...
We consider a single-server queueing system with Poisson arrivals in which the speed of the server d...