We consider a system with multiple Femtocells operating in a Macrocell. The transmissions in one Femtocell interfere with its neighboring Femtocells as well as with the Macrocell Base Station. We model Femtocells as selfish nodes and the Macrocell Base Station protects itself by pricing subchannels for each usage. We use Stackelberg game model to study this scenario and obtain equilibrium policies that satisfy certain quality of service
Abstract—Femtocells can effectively resolve the poor connectivity issue of indoor cellular users. Th...
Femtocells are receiving considerable interest in mobile communications as a strategy to overcome th...
Abstract—In this paper, we study power allocation for D2D communications in heterogeneous networks u...
We consider a system with multiple Femtocells (FCs) operating in a Macrocell. The transmissions in o...
Most of the cellular tra c (voice and data) is generated indoors. Due to attenuation from walls, qua...
This paper presents a power optimization strategy based on pricing for femtocell-deployed networks. ...
Ever growing penetration of the behind-the-meter technologies is changing the electricity consumptio...
The potential massive deployment of femto access points requires femto-cell networks to be able to t...
Abstract—In this paper, we study cooperation among mobile users for uplink in two-tiers heterogeneou...
Abstract—Femtocell provisioning is emerging as a key tech-nology to improve coverage and network cap...
Recently, the concepts of game theory has attract the attention of researcher for self-governing dec...
In this paper, we investigate the resource allocation issues in spectrum-sharing-based two-tier netw...
International audience—Femtocells have recently appeared as a viable solution to enable broadband co...
Underlay femtocells promise to enhance the coverage and rate performance of next-generation wireless...
10.1109/JSAC.2012.120404IEEE Journal on Selected Areas in Communications303538-549ISAC
Abstract—Femtocells can effectively resolve the poor connectivity issue of indoor cellular users. Th...
Femtocells are receiving considerable interest in mobile communications as a strategy to overcome th...
Abstract—In this paper, we study power allocation for D2D communications in heterogeneous networks u...
We consider a system with multiple Femtocells (FCs) operating in a Macrocell. The transmissions in o...
Most of the cellular tra c (voice and data) is generated indoors. Due to attenuation from walls, qua...
This paper presents a power optimization strategy based on pricing for femtocell-deployed networks. ...
Ever growing penetration of the behind-the-meter technologies is changing the electricity consumptio...
The potential massive deployment of femto access points requires femto-cell networks to be able to t...
Abstract—In this paper, we study cooperation among mobile users for uplink in two-tiers heterogeneou...
Abstract—Femtocell provisioning is emerging as a key tech-nology to improve coverage and network cap...
Recently, the concepts of game theory has attract the attention of researcher for self-governing dec...
In this paper, we investigate the resource allocation issues in spectrum-sharing-based two-tier netw...
International audience—Femtocells have recently appeared as a viable solution to enable broadband co...
Underlay femtocells promise to enhance the coverage and rate performance of next-generation wireless...
10.1109/JSAC.2012.120404IEEE Journal on Selected Areas in Communications303538-549ISAC
Abstract—Femtocells can effectively resolve the poor connectivity issue of indoor cellular users. Th...
Femtocells are receiving considerable interest in mobile communications as a strategy to overcome th...
Abstract—In this paper, we study power allocation for D2D communications in heterogeneous networks u...