A wide range of communication systems are corrupted by non-Gaussian noise, ranging from wireless to power line. In some cases, including interference in uncoordinated OFDM-based wireless networks, the noise is both impulsive and multivariate. At present, little is known about the information capacity and corresponding optimal input distributions. In this paper, we derive upper and lower bounds of the information capacity by exploiting non-isotropic inputs. For the special case of sub-Gaussian α-stable noise models, a numerical study reveals that isotropic Gaussian inputs can remain a viable choice, although the performance depends heavily on the dependence structure of the noise
Gaussian distribution is often assumed for the signals in the analysis of and in the design of commu...
The transmission of information over a communication channel vastly depends on the level of knowledg...
The capacity of multiple-input multiple-output additive white Gaussian noise channels is investigate...
International audienceA wide range of communication systems are corrupted by non-Gaussian noise, ran...
International audienceImpulsive noise arises in many communication systems-ranging from wireless to ...
With the plethora of devices that operate in current communication networks, there is a non-zero pro...
84 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.Finally, we consider signaling...
This paper derives new soft-decision metrics for coded orthogonal signaling in impulsive noise, more...
International audienceDue to massive numbers of uncoordinated devices present in wireless networks f...
Abstract — Discrete input distributions are capacity-achieving for a variety of noise distributions ...
The paper is focused on the problem of multilevel digital signal estimation in the presence of gener...
In this paper, the capacity of the additive white Gaussian noise (AWGN) channel, affected by time-va...
In this paper, we consider a wireless communication scenario in which the channel output is marginal...
Abstract—Optimal signalling over the wire-tap MIMO Gaus-sian channel is studied under the total tran...
A classical result in Information Theory states that the Gaussian noise is the worst-case additive n...
Gaussian distribution is often assumed for the signals in the analysis of and in the design of commu...
The transmission of information over a communication channel vastly depends on the level of knowledg...
The capacity of multiple-input multiple-output additive white Gaussian noise channels is investigate...
International audienceA wide range of communication systems are corrupted by non-Gaussian noise, ran...
International audienceImpulsive noise arises in many communication systems-ranging from wireless to ...
With the plethora of devices that operate in current communication networks, there is a non-zero pro...
84 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2003.Finally, we consider signaling...
This paper derives new soft-decision metrics for coded orthogonal signaling in impulsive noise, more...
International audienceDue to massive numbers of uncoordinated devices present in wireless networks f...
Abstract — Discrete input distributions are capacity-achieving for a variety of noise distributions ...
The paper is focused on the problem of multilevel digital signal estimation in the presence of gener...
In this paper, the capacity of the additive white Gaussian noise (AWGN) channel, affected by time-va...
In this paper, we consider a wireless communication scenario in which the channel output is marginal...
Abstract—Optimal signalling over the wire-tap MIMO Gaus-sian channel is studied under the total tran...
A classical result in Information Theory states that the Gaussian noise is the worst-case additive n...
Gaussian distribution is often assumed for the signals in the analysis of and in the design of commu...
The transmission of information over a communication channel vastly depends on the level of knowledg...
The capacity of multiple-input multiple-output additive white Gaussian noise channels is investigate...