Solar Orbiter's journey to reveal new secrets of the Sun

Solar Orbiter's journey to reveal new secrets of the Sun

Planetek  collaborated at the development of the Data Processing Unit of the Solar Wind Plasma Analyser (SWA) on board the Solar Orbiter.

Everything is ready in Cape Canaveral, Florida, for the launch of the Solar Orbiter probe, scheduled for Sunday, February 9, 2020 at 11.15 pm (in Europe it will be 05.15 am CET of Monday 10 February).

Planetek was invited to attend the launch day in Florida, as part of the SWA DPU team who worked on the Solar Wind Plasma Analyser (SWA), one of the ten instruments on board the probe.

Planetek  has been operating in the field of Earth observation and exploration of the universe for 25 years and has contributed to several satellite missions in recent years. In addition to the Solar Orbiter, the company has already collaborated on the Cosmo-SkyMed, Cosmo-SkyMed Second Generation and PRISMA missions, to name the most important.

Since 1994, we have been dealing with satellite remote sensing data and applications, developing solutions close to users' needs and at the same time developing space systems and software for ground and on-board satellite systems. With the Solar Orbiter mission, we are once again "on board satellites" and can be said we are one of the few companies at international level to have skills on the entire value chain of this sector", declares Giovanni Sylos Labini, CEO of Planetek Italia and PLanetek Hellas.


Having contributed to the development of software components today on board a probe that will operate so close to the Sun and so far from Earth, make us feel very proud, but also filled with a sense of responsibility. The Solar Orbiter mission will collect precious and useful data for understanding our solar system and improving our lives", says Cristoforo Abbattista, Head of SpaceStream SBU of Planetek Italia.

The Launch Day

The launch of the Solar Orbiter, scheduled for Sunday, February 9, 2020 at 11.15 pm (Monday, 10 February, 05.15 am CET, in Europe). After about an hour from launch, after completing the procedure for detachment from the launcher, the probe will begin to send the first signals to the ESA ESOC (European Space Operations Center) headquarters in Darmstadt in Germany, and will start the operations to begin its journey near the Sun.

To watch the launch live, the ESA Web TV channel is available.


The Solar Orbiter mission

Solar Orbiter is satellite mission, part of the ESA's Science Program Cosmic Vision 2015-2025, designed to explore the inner regions of the sun and the heliosphere from a near-sun orbit. It will address big questions in Solar System science to help us understand how the Sun creates and controls the heliosphere, how it influences Space Weather and its effect on the Earth. Solar Orbiter will have a highly elliptic orbit – between 1.2 AU at aphelion and 0.28 AU at perihelion (closer than Mercury; the Earth is 1 UA). Solar Orbiter is an ESA-led mission with strong NASA participation. There will be ten instruments on board, eight of which will be provided by Principal Investigators through national funding by ESA Member States. The Italian Space Agency and INAF lead the Italian contribution.

The Solar Wind Plasma Analyser

The Solar Orbiter is composed of ten experiments designed to observe the surface of the Sun and study the changes that occur in the solar wind. Among the instruments, the Solar Wind Plasma Analyzer (SWA) suite aims to provide solar plasma measurements with high resolution to establish a link between the wind and the strongly magnetized solar atmosphere.

The algorithms for calculating the characteristics of the plasma measured by the instruments were implemented by Planetek Italia in the software of the Data Processing Unit (DPU), the calculation unit of the suite on board the probe.

The SWA suite is composed of 4 instruments for the analysis of particles with different energy: two are dedicated to electrons (EAS - Electron Analyzer Sensor), one to protons and alpha particles (PAS - Proton Analyzer Sensor) and finally one to partially particles ionized solar wind (HIS -Heavy Ion Sensor).

The four instruments will separately measure the 3D distribution functions of the speed of the mentioned particles by determining the density, speed, temperature and heat flow of the wind.

One of the main tasks of the on-board scientific software is the calculation of the moments of the distributions of the particles sampled by PAS and EA, in the phase space, which requires a large percentage of the DPU resources, and has been optimized by Planetek to allow maximum production of scientific data by SWA, so as to have all the most important scientific information even in critical situations related to the limited availability of memory and transmission bandwidth to Earth.

The participation in the Solar Wind Plasma Analyser

The participation in SWA is led by the Italian Co-PI (Co-Principal Investigator): Roberto Bruno of the INAF Institute of Space Astrophysics and Planetology (Rome), who has the scientific responsibility of the Data Processing Unit.


The industrial consortium

The commissioned group of companies includes TSD, SITAEL, LEONARDO (Taranto office) and Planetek Italia.

Planetek's activities within the project focused on the EGSE (Electrical Ground Support Equipment) software and on-board scientific software, which provides for the calculation of moments and data compression.

Planetek in Space: PRISMA, Cosmo SG and STRIVING

In 2019, Planetek Italia also collaborated on other important satellite missions.

To mention the latest: the Italian hyper-spectral mission PRISMA, launched a few months ago and in operation since February 2020, and the radar mission Cosmo-SkyMed Second Generation. In these missions Planetek has developed software components for the processing of scientific data in the ground segments. While STRIVING's maiden mission, a validation service in orbit of space components, is nearing launch.

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