The ionosphere has been both a hindrance and attraction of communication solutions that require usage of the High Frequency (HF) band for propagation. While the ionosphere is able to propagate signals at long ranges, it can also introduce significant distortion via multipath and fading. One approach investigated by works in the literature as a means of helping improve communications in the HF band has been the usage/design of MIMO systems. Cognitive equalization can be used to further help mitigate these issues by using reinforcement learning to determine the optimal equalizer configuration (i.e. tap length, filter type, etc.) for a specific channel. The objective of this paper is to investigate the performance of cognitive equalization for...
International audienceMultiple users transmit in the HF band with worldwide coverage but collide wit...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
In this paper, we develop soft decision equalization (SDE) techniques for frequency selective multip...
In the High Frequency (HF) band, ranging from 3-30 MHz, long-range communications can be obtained b...
Machine learning (ML) is now being applied to wireless communications to optimize existing communica...
Ionospheric conditions are variable in nature and can cause destructive interference to transmission...
High Frequency (HF) communication has been shown to be a useful communication technique from the ver...
2 pagesInternational audienceUsing the ionosphere as a passive reflector allows trans-horizon commun...
Data transmission at rates of 1.2 kbits/s or higher through voiceband ionospheric channels is subjec...
In this paper, a new equalizer learning scheme is introduced based on the algorithm of the direction...
In wireless communications, transmitted signals suffer from distortion caused by the channel. Equali...
International audienceThis study presents a multiple-input multiple-output (MIMO) architecture utili...
International audienceAn original mul tiple-input, multiple-output (MIMO) system for a transhorizon ...
This project is about the channel equalization in radio over ber transmission links. In particular, ...
Multiple-input multiple-output (MIMO) wireless communication systems have attracted a lot of interes...
International audienceMultiple users transmit in the HF band with worldwide coverage but collide wit...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
In this paper, we develop soft decision equalization (SDE) techniques for frequency selective multip...
In the High Frequency (HF) band, ranging from 3-30 MHz, long-range communications can be obtained b...
Machine learning (ML) is now being applied to wireless communications to optimize existing communica...
Ionospheric conditions are variable in nature and can cause destructive interference to transmission...
High Frequency (HF) communication has been shown to be a useful communication technique from the ver...
2 pagesInternational audienceUsing the ionosphere as a passive reflector allows trans-horizon commun...
Data transmission at rates of 1.2 kbits/s or higher through voiceband ionospheric channels is subjec...
In this paper, a new equalizer learning scheme is introduced based on the algorithm of the direction...
In wireless communications, transmitted signals suffer from distortion caused by the channel. Equali...
International audienceThis study presents a multiple-input multiple-output (MIMO) architecture utili...
International audienceAn original mul tiple-input, multiple-output (MIMO) system for a transhorizon ...
This project is about the channel equalization in radio over ber transmission links. In particular, ...
Multiple-input multiple-output (MIMO) wireless communication systems have attracted a lot of interes...
International audienceMultiple users transmit in the HF band with worldwide coverage but collide wit...
In wireless communications, the use of multiple antennas for both transmission and reception is asso...
In this paper, we develop soft decision equalization (SDE) techniques for frequency selective multip...