Add to ORKGAbstract—We present a Bayesian game-theoretic approach for the distributed resource allocation problem in the context of K-user fading multiple access channels (MAC). We assume that users have incomplete information about the channel state information (CSI), i.e., each user knows his own channel state, but does not know the states of other users. All users (transmitters) are considered to be rational, selfish, and each one carries the objective of maximizing its own achievable data rate. In such a game-theoretic study, the central question is whether a Bayesian equilibrium (BE) exists. Based on the assumption of two channel states, we prove that there exists exactly one BE in this game. I
In this paper we consider a K-user fading multiple access wiretap channel, where each user wants to ...
Abstract—In this paper, we study the decentralized parallel multiple access channel (MAC) when trans...
International audienceIn this paper, a game theoretic approach is used to derive the optimal power a...
International audienceWe present a Bayesian game-theoretic approach for the distributed resource all...
A Bayesian game-theoretic model is developed to design and analyze the resource allocation problem i...
A game-theoretic framework is developed to design and analyze the resource allocation algorithms in ...
Abstract In this paper, we study a K-user fading multiple access channel (F-MAC), with and without a...
International audienceIn this paper, we consider the uplink of a single cell network with K users si...
We present a general game-theoretical framework for the resource allocation problem in the down-link...
International audienceWe present a general game-theoretical framework for the resource allocation pr...
The goal of this chapter is to introduce the Bayesian game model and apply it to interactive situati...
This chapter is dedicated to the study of distributed resource allocation problems in wireless commu...
This paper discusses the power allocation with fixed rate constraint problem in multi-carrier code d...
International audienceWe analyze the distributed power allocation problem in parallel multiple acces...
In this paper we consider a K-user fading multiple access wiretap channel, where each user wants to ...
Abstract—In this paper, we study the decentralized parallel multiple access channel (MAC) when trans...
International audienceIn this paper, a game theoretic approach is used to derive the optimal power a...
International audienceWe present a Bayesian game-theoretic approach for the distributed resource all...
A Bayesian game-theoretic model is developed to design and analyze the resource allocation problem i...
A game-theoretic framework is developed to design and analyze the resource allocation algorithms in ...
Abstract In this paper, we study a K-user fading multiple access channel (F-MAC), with and without a...
International audienceIn this paper, we consider the uplink of a single cell network with K users si...
We present a general game-theoretical framework for the resource allocation problem in the down-link...
International audienceWe present a general game-theoretical framework for the resource allocation pr...
The goal of this chapter is to introduce the Bayesian game model and apply it to interactive situati...
This chapter is dedicated to the study of distributed resource allocation problems in wireless commu...
This paper discusses the power allocation with fixed rate constraint problem in multi-carrier code d...
International audienceWe analyze the distributed power allocation problem in parallel multiple acces...
In this paper we consider a K-user fading multiple access wiretap channel, where each user wants to ...
Abstract—In this paper, we study the decentralized parallel multiple access channel (MAC) when trans...
International audienceIn this paper, a game theoretic approach is used to derive the optimal power a...