Add to ORKGThe Fast Plasma Investigation onboard the Magnetospheric Multiscale mission uses a discrete wavelet transform and bit plane encoder for data compression. This is the first plasma spectrometer suite to use this method of compression and thus serves as a benchmark for future plasma spectrometers. Flight data from MMS confirm viability of this compression algorithm in large areas of the magnetosphere. Because much of the FPI data were compressed losslessly on orbit, this flight data can be used as seed data to investigate performance of the DWT/BPEbased compression at increased rates of compression. In this study, data from several representative regions of the magnetosphere have been compressed to increasingly small sizes and the resulting er...
The electron density of the topside ionosphere and the plasmasphere contributes essentially to the o...
International audienceMagnetospheric Multiscale (MMS) Mission offers measurements of magnetic field,...
Flows in the photosphere of solar active regions are turbulent in nature. Because magnetic fields ar...
Data compression has been a staple of imaging instruments for years. Recently, plasma measurements h...
Plasma measurements in space are becoming increasingly faster, higher resolution, and distributed ov...
The Fast Plasma Investigation (FPI) was developed for flight on the Magnetospheric Multiscale (MMS) ...
Compressive plasma turbulence is investigated at sub-ion scales in the solar wind using both the Fas...
The Magnetospheric Multiscale (MMS) mission will study small-scale reconnection structures and their...
International audienceStudies of solar wind turbulence traditionally employ high-resolution magnetic...
We investigate the properties of the ion sky maps produced by the Dual Ion Spectrometers (DIS) from ...
Understanding changes in the magnetospheric mass density during disturbed geomagnetic conditions pro...
Large data-sets defined on the sphere arise in many fields. In particular, recent and forthcoming ob...
The main objective of the research is the analysis of statistical and spectral methods for the descr...
The plasma environment at Mercury is a rich laboratory for studying the interaction of the solar win...
AbstractWe have studied a set of 41 magnetic clouds (MCs) measured by the ACE spacecraft, using the ...
The electron density of the topside ionosphere and the plasmasphere contributes essentially to the o...
International audienceMagnetospheric Multiscale (MMS) Mission offers measurements of magnetic field,...
Flows in the photosphere of solar active regions are turbulent in nature. Because magnetic fields ar...
Data compression has been a staple of imaging instruments for years. Recently, plasma measurements h...
Plasma measurements in space are becoming increasingly faster, higher resolution, and distributed ov...
The Fast Plasma Investigation (FPI) was developed for flight on the Magnetospheric Multiscale (MMS) ...
Compressive plasma turbulence is investigated at sub-ion scales in the solar wind using both the Fas...
The Magnetospheric Multiscale (MMS) mission will study small-scale reconnection structures and their...
International audienceStudies of solar wind turbulence traditionally employ high-resolution magnetic...
We investigate the properties of the ion sky maps produced by the Dual Ion Spectrometers (DIS) from ...
Understanding changes in the magnetospheric mass density during disturbed geomagnetic conditions pro...
Large data-sets defined on the sphere arise in many fields. In particular, recent and forthcoming ob...
The main objective of the research is the analysis of statistical and spectral methods for the descr...
The plasma environment at Mercury is a rich laboratory for studying the interaction of the solar win...
AbstractWe have studied a set of 41 magnetic clouds (MCs) measured by the ACE spacecraft, using the ...
The electron density of the topside ionosphere and the plasmasphere contributes essentially to the o...
International audienceMagnetospheric Multiscale (MMS) Mission offers measurements of magnetic field,...
Flows in the photosphere of solar active regions are turbulent in nature. Because magnetic fields ar...