Add to ORKGIn this paper, we study delay and rate-constrained transmission of bursty traffic over wireless channels. We characterize the minimum power requirements via bounds for both single user and multiuser downlink problems, using a class of randomized first-come first-serve policies. We show that larger tolerable delay leads to power reduction, even for single-user Gaussian channels; a source coding interpretation is offered for the result. Further, we show that traffic with max-delay constraints requires more power than the same traffic with average-delay constraints
There is increasing demand for using wireless networks for applications that generate packets with s...
Conference PaperThe fading channels seen in many wireless systems provide a particularly hostile env...
Mobile traffic is expected to grow at an annual compound rate of 57% from 2014 to 2019, while among ...
Journal PaperIn this paper, we study minimal power transmission of bursty sources over wireless chan...
Abstract — In this paper, we study minimal power transmission of bursty sources over wireless channe...
Conference PaperIn this paper, we present near-optimal transmission policies for bursty traffic sour...
Abstract—When transmitting stochastic traffic flows over wire-less networks, there exists an inheren...
Conference PaperMost multimedia sources are bursty in nature, a property which can be used to trade ...
We consider optimal average power allocation policies in a wireless channel in the presence of indiv...
In this paper we consider a single discrete time queue with infinite buffer. The channel may experie...
We consider an average delay minimization problem for a power limited transmitter which collects and...
We consider an optimal power and rate scheduling problem for a single user transmitting to a base st...
We consider near-optimal policies for a single user transmitting on a wireless channel which minimiz...
PhD ThesisThe current and future wireless systems need to support a multitude of services with a wid...
Conference PaperIn this paper, we consider uplink scheduling for bursty traffic. We characterize th...
There is increasing demand for using wireless networks for applications that generate packets with s...
Conference PaperThe fading channels seen in many wireless systems provide a particularly hostile env...
Mobile traffic is expected to grow at an annual compound rate of 57% from 2014 to 2019, while among ...
Journal PaperIn this paper, we study minimal power transmission of bursty sources over wireless chan...
Abstract — In this paper, we study minimal power transmission of bursty sources over wireless channe...
Conference PaperIn this paper, we present near-optimal transmission policies for bursty traffic sour...
Abstract—When transmitting stochastic traffic flows over wire-less networks, there exists an inheren...
Conference PaperMost multimedia sources are bursty in nature, a property which can be used to trade ...
We consider optimal average power allocation policies in a wireless channel in the presence of indiv...
In this paper we consider a single discrete time queue with infinite buffer. The channel may experie...
We consider an average delay minimization problem for a power limited transmitter which collects and...
We consider an optimal power and rate scheduling problem for a single user transmitting to a base st...
We consider near-optimal policies for a single user transmitting on a wireless channel which minimiz...
PhD ThesisThe current and future wireless systems need to support a multitude of services with a wid...
Conference PaperIn this paper, we consider uplink scheduling for bursty traffic. We characterize th...
There is increasing demand for using wireless networks for applications that generate packets with s...
Conference PaperThe fading channels seen in many wireless systems provide a particularly hostile env...
Mobile traffic is expected to grow at an annual compound rate of 57% from 2014 to 2019, while among ...