We consider an optimal power and rate scheduling problem for a multiaccess fading wireless channel with the objective of minimising a weighted sum of mean packet transmission delay subject to a peak power constraint. The base station acts as a controller which, depending upon the buffer lengths and the channel state of each user, allocates transmission rate and power to individual users. We assume perfect channel state information at the transmitter and the receiver. We also assume a Markov model for the fading and packet arrival processes. The policy obtained represents a form of Indexability
We study optimal constant-rate coding schemes for a block-fading channel with strict transmission de...
Abstract — A power optimal scheduling algorithm that guar-antees desired throughput and bounded dela...
In multiaccess wireless systems, dynamic allocation of resources such as transmit power, bandwidths,...
We consider an optimal power and rate scheduling problem for a multiaccess fading wireless channel ...
We consider an optimal power and rate scheduling problem for a single user transmitting to a base st...
In this paper we consider a single discrete time queue with infinite buffer. The channel may experie...
We consider an optimal power and rate scheduling problem for a single user transmitting to a base st...
We consider the problem of several users transmitting packets to a base station, and study an optima...
We consider optimal average power allocation policies in a wireless channel in the presence of indiv...
This thesis addresses a number of problems in optimal resource allocation and performance analysis i...
Abstract — In this paper, we study minimal power transmission of bursty sources over wireless channe...
Next-generation wireless networks for personal communication services should be designed to transfer...
Journal PaperIn this paper, we study minimal power transmission of bursty sources over wireless chan...
In this paper, we consider a multiple-access fading channel where N users transmit to a single base ...
We propose a novel recursive algorithm for determining the optimal admission and transmission rates ...
We study optimal constant-rate coding schemes for a block-fading channel with strict transmission de...
Abstract — A power optimal scheduling algorithm that guar-antees desired throughput and bounded dela...
In multiaccess wireless systems, dynamic allocation of resources such as transmit power, bandwidths,...
We consider an optimal power and rate scheduling problem for a multiaccess fading wireless channel ...
We consider an optimal power and rate scheduling problem for a single user transmitting to a base st...
In this paper we consider a single discrete time queue with infinite buffer. The channel may experie...
We consider an optimal power and rate scheduling problem for a single user transmitting to a base st...
We consider the problem of several users transmitting packets to a base station, and study an optima...
We consider optimal average power allocation policies in a wireless channel in the presence of indiv...
This thesis addresses a number of problems in optimal resource allocation and performance analysis i...
Abstract — In this paper, we study minimal power transmission of bursty sources over wireless channe...
Next-generation wireless networks for personal communication services should be designed to transfer...
Journal PaperIn this paper, we study minimal power transmission of bursty sources over wireless chan...
In this paper, we consider a multiple-access fading channel where N users transmit to a single base ...
We propose a novel recursive algorithm for determining the optimal admission and transmission rates ...
We study optimal constant-rate coding schemes for a block-fading channel with strict transmission de...
Abstract — A power optimal scheduling algorithm that guar-antees desired throughput and bounded dela...
In multiaccess wireless systems, dynamic allocation of resources such as transmit power, bandwidths,...