Traditional equalizers try to invert the global, linear or non-linear, channel response. However, in digital links, where transmitted symbols belong to a discrete alphabet, the complete channel inversion is neither required, nor desirable. Actually, symbol demodulation can be recasted as a classification problem in the received symbol space. Following this approach, in recent years, neural networks have been used as demodulators. In this paper, we propose a neural architecture, which resorts to a somewhat intermediate approach between the channel inversion and the Bayesian classification. A complex-valued discriminative learning, which attempts to minimize the error risk, is applied to a non-linear decision-feedback network, resulting in fa...
International audienceIn this paper, we study blind equalization techniques to reduce the intersymbo...
A novel adaptive technique is proposed for the complex-valued modified probabilistic neural network ...
Abstract: Problem statement: Digital transmission over band-limited communication channel largely su...
Neural networks have been successfully applied to the equalization of digital communication channels...
In this work new Decision-Feedback (DF) Neural Equalizers (DFNE) are introduced and compared with cl...
In this paper we introduce an enhanced Decision Feedback Equalizer (DFE), based on the use of a feed...
Neural networks add flexibility to the design of equalizers for digital communications. In this work...
In this paper a new approach to the equalization of digital transmission channels is introduced and ...
This paper presents a neuralnetwork -based equalizer for a digital communication system. In this equ...
When digital signals are transmitted through frequency selective communication channels, one of the ...
In this paper a new approach to the equalization of digital transmission channels is introduced and ...
In this paper a novel approach to learning in Recurrent Neural Networks (RNN) is introduced and appl...
The authors derive a novel Bayesian decision feedback equalizer (DFE) for digital communications cha...
This paper presents a new neural architecture suitable for digital signal processing application. Th...
This paper presents a new neural architecture suitable for digital signal processing application. Th...
International audienceIn this paper, we study blind equalization techniques to reduce the intersymbo...
A novel adaptive technique is proposed for the complex-valued modified probabilistic neural network ...
Abstract: Problem statement: Digital transmission over band-limited communication channel largely su...
Neural networks have been successfully applied to the equalization of digital communication channels...
In this work new Decision-Feedback (DF) Neural Equalizers (DFNE) are introduced and compared with cl...
In this paper we introduce an enhanced Decision Feedback Equalizer (DFE), based on the use of a feed...
Neural networks add flexibility to the design of equalizers for digital communications. In this work...
In this paper a new approach to the equalization of digital transmission channels is introduced and ...
This paper presents a neuralnetwork -based equalizer for a digital communication system. In this equ...
When digital signals are transmitted through frequency selective communication channels, one of the ...
In this paper a new approach to the equalization of digital transmission channels is introduced and ...
In this paper a novel approach to learning in Recurrent Neural Networks (RNN) is introduced and appl...
The authors derive a novel Bayesian decision feedback equalizer (DFE) for digital communications cha...
This paper presents a new neural architecture suitable for digital signal processing application. Th...
This paper presents a new neural architecture suitable for digital signal processing application. Th...
International audienceIn this paper, we study blind equalization techniques to reduce the intersymbo...
A novel adaptive technique is proposed for the complex-valued modified probabilistic neural network ...
Abstract: Problem statement: Digital transmission over band-limited communication channel largely su...