This work focuses on a machine learning based detection of ionospheric scintillation events affecting Global Navigation Satellite System (GNSS) signals. We here extend the recent detection results based on Decision Trees, designing a semi-supervised detection system based on the DeepInfomax approach recently proposed. The paper shows that it is possible to achieve good classification accuracy while reducing the amount of time that human experts must spend manually labelling the datasets for the training of supervised algorithms. The proposed method is scalable and reduces the required percentage of annotated samples to achieve a given performance, making it a viable candidate for a realistic deployment of scintillation detection in software...
Global Navigation Satellite System (GNSS) positioning quality, continuity and reliability can be sev...
Ionospheric scintillation are signal perturbations caused by the interaction between the Earth’s geo...
Spoofing of the GNSS signals presents continuous threat to the users of safety of life applications ...
This work focuses on a machine learning based detection of iono-spheric scintillation events affecti...
Classical approaches for the automatic detection of ionospheric scintillation events in Global Navig...
This paper proposes a methodology for automatic, accurate, and early detection of amplitude ionosphe...
This paper proposes a methodology for automatic, accurate and early detection of amplitude ionospher...
Ionospheric scintillation frequently occurs in equatorial, auroral and polar regions, posing a threa...
The ionosphere is a region in the Earth’s upper atmosphere, where atoms are ionized due to solar rad...
In this paper, we present a bagged tree model able to detect phase scintillation at high latitudes w...
GNSS is one of the most widely used positioning techniques in modern technology. However, the signal...
Ionospheric scintillation is the physical phenomena affecting radio waves coming from the space thro...
This study presents a new methodology to automatically classify perturbations in the lower ionospher...
Global Navigation Satellite System (GNSS) Radio Occultation (RO) has provided high- quality atmosphe...
We are making use of the vast amount of publicly available GNSS data to develop a data driven superv...
Global Navigation Satellite System (GNSS) positioning quality, continuity and reliability can be sev...
Ionospheric scintillation are signal perturbations caused by the interaction between the Earth’s geo...
Spoofing of the GNSS signals presents continuous threat to the users of safety of life applications ...
This work focuses on a machine learning based detection of iono-spheric scintillation events affecti...
Classical approaches for the automatic detection of ionospheric scintillation events in Global Navig...
This paper proposes a methodology for automatic, accurate, and early detection of amplitude ionosphe...
This paper proposes a methodology for automatic, accurate and early detection of amplitude ionospher...
Ionospheric scintillation frequently occurs in equatorial, auroral and polar regions, posing a threa...
The ionosphere is a region in the Earth’s upper atmosphere, where atoms are ionized due to solar rad...
In this paper, we present a bagged tree model able to detect phase scintillation at high latitudes w...
GNSS is one of the most widely used positioning techniques in modern technology. However, the signal...
Ionospheric scintillation is the physical phenomena affecting radio waves coming from the space thro...
This study presents a new methodology to automatically classify perturbations in the lower ionospher...
Global Navigation Satellite System (GNSS) Radio Occultation (RO) has provided high- quality atmosphe...
We are making use of the vast amount of publicly available GNSS data to develop a data driven superv...
Global Navigation Satellite System (GNSS) positioning quality, continuity and reliability can be sev...
Ionospheric scintillation are signal perturbations caused by the interaction between the Earth’s geo...
Spoofing of the GNSS signals presents continuous threat to the users of safety of life applications ...