Abstract — For most of wireless services with variable rate transmission, both average rate and rate oscillation are important performance metrics. One often needs to decide how much rate oscillation the service can tolerate to obtain a higher average rate. Service satisfaction for each user is quantified by an increasing and concave utility function of instantaneous transmission rate. It is capable of facilitating the resource allocation with flexible combinations of average rate and rate oscillation. Particularly, we are interested in maximizing the time-average aggregate utility by scheduling user transmissions in a time-shared wireless network. A resource allocation policy is developed, namely, time sharing (TS), to exploit the concavit...
We study opportunistic feedback of channel state and scheduling of users transmissions at a wireless...
We consider a wireless network consisting of two classes of potentially mobile users: primary users ...
We propose a feedback algorithm for wireless networks that always collects feedback from the user wi...
We present an “opportunistic ” transmission scheduling policy that exploits time-varying channel con...
We consider a joint power control and transmission scheduling problem in wireless networks with aver...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
Abstract — Average transmission rate and rate oscillation are two important performance metrics for ...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
One critical step to successfully integrate wireless data networks to the high-speed wired backbone ...
We consider the problem of scheduling packets over channels with time-varying quality. This problem ...
The field of wireless communications has experienced huge growth in the last decades. Various new us...
We are concerned with the allocation of transmitter time and power for randomly time varying mobile ...
Abstract — We address multi-user scheduling over the downlink channel in wireless data systems. Spec...
We consider the problem of optimal rate allocation and admission control for adaptive video streamin...
Transmission rate adaptation in wireless devices provides a unique opportunity to trade off data ser...
We study opportunistic feedback of channel state and scheduling of users transmissions at a wireless...
We consider a wireless network consisting of two classes of potentially mobile users: primary users ...
We propose a feedback algorithm for wireless networks that always collects feedback from the user wi...
We present an “opportunistic ” transmission scheduling policy that exploits time-varying channel con...
We consider a joint power control and transmission scheduling problem in wireless networks with aver...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
Abstract — Average transmission rate and rate oscillation are two important performance metrics for ...
We address the problem of developing a well-performing and implementable scheduler of users with wir...
One critical step to successfully integrate wireless data networks to the high-speed wired backbone ...
We consider the problem of scheduling packets over channels with time-varying quality. This problem ...
The field of wireless communications has experienced huge growth in the last decades. Various new us...
We are concerned with the allocation of transmitter time and power for randomly time varying mobile ...
Abstract — We address multi-user scheduling over the downlink channel in wireless data systems. Spec...
We consider the problem of optimal rate allocation and admission control for adaptive video streamin...
Transmission rate adaptation in wireless devices provides a unique opportunity to trade off data ser...
We study opportunistic feedback of channel state and scheduling of users transmissions at a wireless...
We consider a wireless network consisting of two classes of potentially mobile users: primary users ...
We propose a feedback algorithm for wireless networks that always collects feedback from the user wi...