The cross- and co-tier interference creates the challenges to facilitate the concept of heterogeneous cellular networks (HCNs) in practice. In this paper, we establish a combined learning framework to autonomously mitigate the destructive interference. The macrocell is modeled as the leader and protects itself through pricing the interference from small-cells, which are the followers in the stochastic learning process. During each epoch (an epoch consists of T time slots), the leader commits to a pricing policy by knowing the resource allocation policies of all followers, while the followers compete against each other in each time slot only with the leader's price information. In general, for any two consecutive epochs, the HCN states are h...
This paper addresses energy-aware traffic offloading in stochastic heterogeneous cellular networks (...
In multi-user downlink small cell networks, cooperative resource allocation (RA) within a small cell...
Self-organizing networks (SONs) can help manage the severe interference in dense heterogeneous netwo...
The cross- and co-tier interference creates the challenges to facilitate the concept of heterogeneou...
International audienceThe cross- and co-tier interference creates the challenges to facilitate the c...
In this paper, we investigate improving energy ef?ciency in heterogeneous cellular networks (HCNs). ...
In this paper, we study the power allocation problem for the downlink transmission in a set of close...
Artículo de publicación ISIThis paper first provides a brief survey on existing traffic offloading t...
This paper investigates energy efficiency for two-tier femtocell networks through combining game the...
We study the problem of autonomous operation of the device-to-device (D2D) pairs in a heterogeneous ...
This paper puts forwards an on-line reinforcement learning framework for the problem of traffic offl...
© 2017 IEEE. Smallcells have great potential to enhance cellular networks, complementing macrocells....
International audienceIn this paper, a decentralized and self-organizing mechanism for small cell ne...
This paper first provides a brief survey on existing traffic offloading techniques in wireless netwo...
International audienceThe deployment of underlay small base stations (SBSs) is expected to significa...
This paper addresses energy-aware traffic offloading in stochastic heterogeneous cellular networks (...
In multi-user downlink small cell networks, cooperative resource allocation (RA) within a small cell...
Self-organizing networks (SONs) can help manage the severe interference in dense heterogeneous netwo...
The cross- and co-tier interference creates the challenges to facilitate the concept of heterogeneou...
International audienceThe cross- and co-tier interference creates the challenges to facilitate the c...
In this paper, we investigate improving energy ef?ciency in heterogeneous cellular networks (HCNs). ...
In this paper, we study the power allocation problem for the downlink transmission in a set of close...
Artículo de publicación ISIThis paper first provides a brief survey on existing traffic offloading t...
This paper investigates energy efficiency for two-tier femtocell networks through combining game the...
We study the problem of autonomous operation of the device-to-device (D2D) pairs in a heterogeneous ...
This paper puts forwards an on-line reinforcement learning framework for the problem of traffic offl...
© 2017 IEEE. Smallcells have great potential to enhance cellular networks, complementing macrocells....
International audienceIn this paper, a decentralized and self-organizing mechanism for small cell ne...
This paper first provides a brief survey on existing traffic offloading techniques in wireless netwo...
International audienceThe deployment of underlay small base stations (SBSs) is expected to significa...
This paper addresses energy-aware traffic offloading in stochastic heterogeneous cellular networks (...
In multi-user downlink small cell networks, cooperative resource allocation (RA) within a small cell...
Self-organizing networks (SONs) can help manage the severe interference in dense heterogeneous netwo...