We propose a new approach for proportionally fair sharing of radio access resources (i.e., frequency carriers) in a 5G mobile environment. In particular, we formulate the multi-carrier scheduling problem as a game (played by different carriers) which results in proportionally fair user service rates at its equilibrium. We subsequently present a globally convergent algorithm to find the equilibrium point of the devised game, based on which we develop a frame-by-frame scheduling mechanism. We further discuss how to extend the proposed scheduling scheme to a multi-tenant setting in order to efficiently implement radio access network slicing in a 5G mobile system
With the objectives of improving 3G networks coverage by using relaying nodes, a game theoretic appr...
Nowadays, the growing demand for group-oriented services over mobile devices has lead to the defini...
Unlike the previous generations, the design of the 5th Generation of cellular mobile communications ...
We consider the problem of "fair" scheduling the resources to one of the many mobile stations by a c...
This paper proposes a novel approach, based on game theory, for radio resource allocation in the dow...
Network slicing to enable resource sharing among multiple tenants-network operators and/or services-...
This paper examines the theoretical aspects of bandwidth sharing in wireless, possibly mobile, ad-ho...
International audienceIn networking and computing, resource allocation is typically addressed using ...
Technologies that enable network slicing are expected to be a key component of next generation mobil...
In this paper, we propose a game theoretical model for joint scheduling and radio resource allocatio...
IEEE International Conference on Computer Communications (IEEE INFOCOM 2017)Network slicing to enabl...
The increasing demand for higher data rates has accelerated research on the next generation of mobil...
© 2018 IEEE. Network slicing is one of the key enabling technologies for 5G due to its ability to cu...
This paper studies the joint relay selection and spectrum allocation problem for multi-user and mult...
The fundamental principle of multiuser diversity states that it is possible to achieve a significant...
With the objectives of improving 3G networks coverage by using relaying nodes, a game theoretic appr...
Nowadays, the growing demand for group-oriented services over mobile devices has lead to the defini...
Unlike the previous generations, the design of the 5th Generation of cellular mobile communications ...
We consider the problem of "fair" scheduling the resources to one of the many mobile stations by a c...
This paper proposes a novel approach, based on game theory, for radio resource allocation in the dow...
Network slicing to enable resource sharing among multiple tenants-network operators and/or services-...
This paper examines the theoretical aspects of bandwidth sharing in wireless, possibly mobile, ad-ho...
International audienceIn networking and computing, resource allocation is typically addressed using ...
Technologies that enable network slicing are expected to be a key component of next generation mobil...
In this paper, we propose a game theoretical model for joint scheduling and radio resource allocatio...
IEEE International Conference on Computer Communications (IEEE INFOCOM 2017)Network slicing to enabl...
The increasing demand for higher data rates has accelerated research on the next generation of mobil...
© 2018 IEEE. Network slicing is one of the key enabling technologies for 5G due to its ability to cu...
This paper studies the joint relay selection and spectrum allocation problem for multi-user and mult...
The fundamental principle of multiuser diversity states that it is possible to achieve a significant...
With the objectives of improving 3G networks coverage by using relaying nodes, a game theoretic appr...
Nowadays, the growing demand for group-oriented services over mobile devices has lead to the defini...
Unlike the previous generations, the design of the 5th Generation of cellular mobile communications ...