We consider the problem of dynamic scheduling of customers (messages) in time-critical environments. First, we consider a single station (communication node) and assume that each customer (message) must begin service (transmission) by an individually varying "extinction" time or, else, it is lost. We are interested in minimizing in the sense of stochastic order, the number of messages lost over any time interval. We prove a variety of results that establish the optimality of the STE (Shortest-Time- to-Extinction) policy under rather general conditions. Similar results are also shown when messages have constraints on their complete transmission times. If the scheduler is allowed to take decisions based only on the distribution of the deadlin...
In this paper we discuss a stochastic scheduling problem with impatience to the beginning of service...
International audienceWe consider a single-server queue in discrete time, in which customers must be...
We consider a M/M/1 queue in which the average reward for servicing a job is an exponentially decayi...
Abstract. Many problems can be modeled as single-server queues with impatient customers. An example ...
Queuing systems with time-critical customers can be encountered in packetized voice-communication sy...
International audienceStrict priority policies in a stochastic system with abandonment In the techni...
We study a canonical real-time scheduling problem for time-slotted collocated wireless networks serv...
Time constrained communications, such as packetized voice, differs from data communications in two i...
International audienceIn this paper we discuss scheduling problems with impatience to the beginning ...
International audienceWe consider a single server queue in discrete time, in which customers must be...
Interchange arguments are applied to establish the optimality of priority list policies in three pro...
This paper presents an innovative approach for scheduling network messages with real-time dynamic al...
Abstract — We consider the problem of real-time communica-tion with delay constraints. In earlier wo...
Queueing networks are extensively used in the study of systems such as communication, computer, and ...
International audienceWe consider a stochastic scheduling problem with impatience to the end of serv...
In this paper we discuss a stochastic scheduling problem with impatience to the beginning of service...
International audienceWe consider a single-server queue in discrete time, in which customers must be...
We consider a M/M/1 queue in which the average reward for servicing a job is an exponentially decayi...
Abstract. Many problems can be modeled as single-server queues with impatient customers. An example ...
Queuing systems with time-critical customers can be encountered in packetized voice-communication sy...
International audienceStrict priority policies in a stochastic system with abandonment In the techni...
We study a canonical real-time scheduling problem for time-slotted collocated wireless networks serv...
Time constrained communications, such as packetized voice, differs from data communications in two i...
International audienceIn this paper we discuss scheduling problems with impatience to the beginning ...
International audienceWe consider a single server queue in discrete time, in which customers must be...
Interchange arguments are applied to establish the optimality of priority list policies in three pro...
This paper presents an innovative approach for scheduling network messages with real-time dynamic al...
Abstract — We consider the problem of real-time communica-tion with delay constraints. In earlier wo...
Queueing networks are extensively used in the study of systems such as communication, computer, and ...
International audienceWe consider a stochastic scheduling problem with impatience to the end of serv...
In this paper we discuss a stochastic scheduling problem with impatience to the beginning of service...
International audienceWe consider a single-server queue in discrete time, in which customers must be...
We consider a M/M/1 queue in which the average reward for servicing a job is an exponentially decayi...