Abstract—We investigate the scheduling of a common resource between several concurrent users when the feasible transmission rate of each user varies randomly over time. Time is slotted and users arrive and depart upon service completion. This may model for example the flow-level behavior of end-users in a narrowband HDR wireless channel (CDMA 1xEV-DO). As performance criteria we consider the stability of the system and the mean delay experienced by the users. Given the complexity of the problem we investigate the fluid-scaled system, which allows to obtain important results and insights for the original system: (1) We characterize for a large class of scheduling policies the stability conditions and identify a set of maximum stable policies...
textabstractChannel-aware scheduling strategies, such as the Proportional Fair algorithm for the CDM...
We use fluid limits to explore the (in)stability properties of wireless networks with queue-based ra...
The stability regions of two opportunistic scheduling policies, the utility-based (UB) scheduling an...
International audienceWe investigate the scheduling of a common resource between several concurrent ...
We investigate the scheduling of a common resource between several concurrent users when the feasibl...
We introduce a comprehensive modeling framework for the problem of scheduling a finite number of fin...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
We investigate flow-level stability of schedulers in parallel-service wireless systems, which is imp...
textWe investigate in detail two multiuser opportunistic scheduling problems in centralized wireless...
We consider the problem of scheduling of a wireless channel (server) to several queues. Each queue h...
We consider the problem of scheduling packets over channels with time-varying quality. This problem ...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
Abstract—Randomization is a powerful and pervasive strategy for developing efficient and practical t...
textabstractChannel-aware scheduling strategies, such as the Proportional Fair algorithm for the CDM...
We use fluid limits to explore the (in)stability properties of wireless networks with queue-based ra...
The stability regions of two opportunistic scheduling policies, the utility-based (UB) scheduling an...
International audienceWe investigate the scheduling of a common resource between several concurrent ...
We investigate the scheduling of a common resource between several concurrent users when the feasibl...
We introduce a comprehensive modeling framework for the problem of scheduling a finite number of fin...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
We investigate flow-level stability of schedulers in parallel-service wireless systems, which is imp...
textWe investigate in detail two multiuser opportunistic scheduling problems in centralized wireless...
We consider the problem of scheduling of a wireless channel (server) to several queues. Each queue h...
We consider the problem of scheduling packets over channels with time-varying quality. This problem ...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
Abstract—Randomization is a powerful and pervasive strategy for developing efficient and practical t...
textabstractChannel-aware scheduling strategies, such as the Proportional Fair algorithm for the CDM...
We use fluid limits to explore the (in)stability properties of wireless networks with queue-based ra...
The stability regions of two opportunistic scheduling policies, the utility-based (UB) scheduling an...