International audienceIn this paper, we consider the uplink of a single cell network with K users simultaneously communicating with a base station using OFDM modulation over N carriers. In such a scenario, users can decide their power allocation based on three possible Channel State Information (CSI) levels, which are called complete, partial and statistical. The optimal solutions for maximizing the average capacity with complete and statistical knowledge are known to be the water-filling game and the uniform power allocation respectively. We study the problem in the partial knowledge case. We formulate it as a strategy game, where each player (user) selfishly maximizes his own average capacity. The information structure that we consider is...
Abstract—The problem of non-cooperative resource allocation in multicell uplink OFDMA systems is con...
monly identified as a key radio resource management mechanism to enhance system performance of 4G ne...
We consider the problem of decentralized power allocation for competitive rate maximization in a fre...
International audienceIn this paper, we consider the uplink of a single cell network with K users si...
International audienceWe present a non-cooperative game-theoretic approach for the distributed resou...
International audienceWe present a general game-theoretical framework for the resource allocation pr...
We present a general game-theoretical framework for the resource allocation problem in the down-link...
International audienceWe study the resource allocation problem in Orthogonal Frequency Division Mult...
International audienceA game theoretic approach is used to derive the optimal decentralized power al...
International audienceIn this contribution, the performance of a multiuser system is analyzed in the...
International audienceIn this contribution we present a decentralized power allocation algorithm for...
International audienceIn this paper, we study the discrete power allocation game for the fast fading...
International audienceWe present a Bayesian game-theoretic approach for the distributed resource all...
We consider a Gaussian interference channel with independent direct and cross link channel gains, ea...
Abstract—The problem of non-cooperative resource allocation in multicell uplink OFDMA systems is con...
monly identified as a key radio resource management mechanism to enhance system performance of 4G ne...
We consider the problem of decentralized power allocation for competitive rate maximization in a fre...
International audienceIn this paper, we consider the uplink of a single cell network with K users si...
International audienceWe present a non-cooperative game-theoretic approach for the distributed resou...
International audienceWe present a general game-theoretical framework for the resource allocation pr...
We present a general game-theoretical framework for the resource allocation problem in the down-link...
International audienceWe study the resource allocation problem in Orthogonal Frequency Division Mult...
International audienceA game theoretic approach is used to derive the optimal decentralized power al...
International audienceIn this contribution, the performance of a multiuser system is analyzed in the...
International audienceIn this contribution we present a decentralized power allocation algorithm for...
International audienceIn this paper, we study the discrete power allocation game for the fast fading...
International audienceWe present a Bayesian game-theoretic approach for the distributed resource all...
We consider a Gaussian interference channel with independent direct and cross link channel gains, ea...
Abstract—The problem of non-cooperative resource allocation in multicell uplink OFDMA systems is con...
monly identified as a key radio resource management mechanism to enhance system performance of 4G ne...
We consider the problem of decentralized power allocation for competitive rate maximization in a fre...