International audienceIn this paper, we develop an innovative approach to quantitatively characterize the performance of ultra-dense wireless networks in a plethora of propagation environments. The proposed framework has the potential of simplifying the cumbersome procedure of analyzing the coverage probability and allowing the unification of single-and multi-antenna networks through compact analytical representations. By harnessing this key feature, we develop a novel statistical machinery to study the scaling laws of wireless networks densification considering general channel power distributions including small-scale fading and shadowing as well as associated beamforming and array gains due to the use of multiple antenna. We further formu...
In the present day, mobile based data services have become increasingly popular among end users and ...
International audienceThis paper considers large random wireless networks where transmit-and-receive...
The concept of Ultra Dense Networks (UDNs) is often seen as a key enabler of the next generation mob...
International audienceIn this paper, we develop an innovative approach to quantitatively characteriz...
The traffic volume in wireless communication has grown dramatically in the last decade and is predic...
The traffic volume in wireless communication has grown dramatically in the lastdecade. Recent predic...
We discover a new capacity scaling law in ultra-dense networks under practical system assumptions, s...
In this paper, we investigate the impact of network densification on the performance in terms of dow...
© 2017 IEEE. In this paper, we answer a fundamental question: when the total number of antennas per ...
© 2018 IEEE. The aggressive spatial spectrum reuse (SSR) by network densification using smaller cell...
In this work we try to answer the question how densely the wireless networks should be deployed. We ...
With an ever-increasing amount of deployed base stations and new types of supported devices and serv...
© 2019 IEEE. In this paper, we study Ultra Dense Networks(UDN) in which the density of BSs is distri...
International audienceMassive multiple-input multiple-output (massive MIMO) and small cell densifica...
Device density in cellular networks is expected to increase considerably in the near future. Accordi...
In the present day, mobile based data services have become increasingly popular among end users and ...
International audienceThis paper considers large random wireless networks where transmit-and-receive...
The concept of Ultra Dense Networks (UDNs) is often seen as a key enabler of the next generation mob...
International audienceIn this paper, we develop an innovative approach to quantitatively characteriz...
The traffic volume in wireless communication has grown dramatically in the last decade and is predic...
The traffic volume in wireless communication has grown dramatically in the lastdecade. Recent predic...
We discover a new capacity scaling law in ultra-dense networks under practical system assumptions, s...
In this paper, we investigate the impact of network densification on the performance in terms of dow...
© 2017 IEEE. In this paper, we answer a fundamental question: when the total number of antennas per ...
© 2018 IEEE. The aggressive spatial spectrum reuse (SSR) by network densification using smaller cell...
In this work we try to answer the question how densely the wireless networks should be deployed. We ...
With an ever-increasing amount of deployed base stations and new types of supported devices and serv...
© 2019 IEEE. In this paper, we study Ultra Dense Networks(UDN) in which the density of BSs is distri...
International audienceMassive multiple-input multiple-output (massive MIMO) and small cell densifica...
Device density in cellular networks is expected to increase considerably in the near future. Accordi...
In the present day, mobile based data services have become increasingly popular among end users and ...
International audienceThis paper considers large random wireless networks where transmit-and-receive...
The concept of Ultra Dense Networks (UDNs) is often seen as a key enabler of the next generation mob...