The aim of this paper is to analyze the design of support vector machine (SVM) algorithm that belongs to the class of supervised machine learning algorithms for phase scintillation detection and to discuss the performance comparison of linear and Gaussian kernel implementations by considering the design parameter’s effects. The algorithm processes the phase scintillation indices computed for GPS L1 signals through the designed linear and Gaussian kernel SVM models. The study is based on the real GNSS signals which are affected by phase scintillations, collected at South African Antarctic research base (SANAE IV)
This work focuses on a machine learning based detection of iono-spheric scintillation events affecti...
Since the middle ages, the need to identify the vehicles position in their local environment has alw...
Strong equatorial ionospheric scintillation is characterized with simultaneous deep amplitude fading...
Global Navigation Satellite System (GNSS) Radio Occultation (RO) has provided high- quality atmosphe...
This data set contains features of labelled GNSS Radio Occultation (GNSS-RO) measurements at low lat...
Classical approaches for the automatic detection of ionospheric scintillation events in Global Navig...
In this paper, we present a bagged tree model able to detect phase scintillation at high latitudes w...
This paper proposes a methodology for automatic, accurate, and early detection of amplitude ionosphe...
The aim of this paper is to present a comparative study of different acquisition methods tailored to...
This paper proposes a methodology for automatic, accurate and early detection of amplitude ionospher...
This paper addresses a comparative analysis of both amplitude and phase scintillation effects on the...
Ionospheric scintillation is one of the most challenging sources of errors in global navigation sate...
Rapid and sudden fluctuations of phase and amplitude in Global Navigation Satellite System (GNSS) si...
Global Navigation Satellite System (GNSS) positioning quality, continuity and reliability can be sev...
Ionospheric scintillations are fluctuations in the phase and amplitude of the signals from GNSS (Glo...
This work focuses on a machine learning based detection of iono-spheric scintillation events affecti...
Since the middle ages, the need to identify the vehicles position in their local environment has alw...
Strong equatorial ionospheric scintillation is characterized with simultaneous deep amplitude fading...
Global Navigation Satellite System (GNSS) Radio Occultation (RO) has provided high- quality atmosphe...
This data set contains features of labelled GNSS Radio Occultation (GNSS-RO) measurements at low lat...
Classical approaches for the automatic detection of ionospheric scintillation events in Global Navig...
In this paper, we present a bagged tree model able to detect phase scintillation at high latitudes w...
This paper proposes a methodology for automatic, accurate, and early detection of amplitude ionosphe...
The aim of this paper is to present a comparative study of different acquisition methods tailored to...
This paper proposes a methodology for automatic, accurate and early detection of amplitude ionospher...
This paper addresses a comparative analysis of both amplitude and phase scintillation effects on the...
Ionospheric scintillation is one of the most challenging sources of errors in global navigation sate...
Rapid and sudden fluctuations of phase and amplitude in Global Navigation Satellite System (GNSS) si...
Global Navigation Satellite System (GNSS) positioning quality, continuity and reliability can be sev...
Ionospheric scintillations are fluctuations in the phase and amplitude of the signals from GNSS (Glo...
This work focuses on a machine learning based detection of iono-spheric scintillation events affecti...
Since the middle ages, the need to identify the vehicles position in their local environment has alw...
Strong equatorial ionospheric scintillation is characterized with simultaneous deep amplitude fading...