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IRIDE, which stands for International Report for an Innovative Defence of Earth, is an ambitious Italian Earth observation programme. It will provide information for a wide range of environmental, emergency and security products and services that will help public authorities to make decisions based on scientific data from space.

Coordinated by ESA with support from the Italian Space Agency (ASI), the IRIDE programme involves the deployment of six satellite constellations. It is one of the most complex and comprehensive Earth observation satellite systems in the world. Each constellation carries specific satellite technology, from radar and optical to hyperspectral and multispectral instruments.

The overall IRIDE constellation is expected to be operational by June 2026.

IRIDE’s system consists of six constellations equipped with sensors for Earth observation. It is one of the most complex and comprehensive Earth observation satellite systems in the world.

Each of the six constellations carries different types of sensors, from radar and optical to hyperspectral and multispectral instruments, which detect a wide range of characteristics of the Earth’s surface, providing the core inputs for the data products and services offered by IRIDE.

The overall IRIDE constellation is expected to be operational by June 2026.

Follow the questions to ESA DG during the IAC 2025 panel on Space Sustainability, moderated by Heriberto Saldivar (Head of Strategy, ESA).

All IAC 2025 videos.

The intricate mechanisms of the most sophisticated laboratory on Mars are revealed in Episode 4 of the ExoMars Rosalind Franklin series, called “Sample processing.” 

The Rosalind Franklin rover’s drill has a maximum reach of two metres – deeper than any other mission has ever attempted on the Red Planet. This depth allows access to well-preserved organic material from four billion years ago, when conditions on the surface of Mars were more like those on infant Earth. 

After receiving a sample from the drill, Rosalind’s laboratory must prepare the sample to make a detailed study of its mineral and chemical composition. The rover’s Analytical Laboratory Drawer (ALD) mechanisms execute a pre-programmed choreography of sample manipulations to make sure that the instruments can do their job.   

The ExoMars Rosalind Franklin mission is part of Europe’s ambitious exploration journey to search for past and present signs of life on Mars. 

For the latest mission updates, visit ESA’s ExoMars website and our FAQ section.

Access the related broadcast quality footage.

ESA’s Mars Express takes us on another mesmerising flight over curving channels carved by water, islands that have resisted erosion, and a maze of hilly terrain.

Central to the tour is a 1300 km-long outflow channel called Shalbatana Vallis. It cascades down from the highland region of Xanthe Terra to the smoother lowlands of Chryse Planitia.

Billions of years ago, water surged through this channel, creating many of the features we see today.

The tour culminates in a spectacular view of a 100 km-wide impact crater, smashed out of Mars’s surface when it collided with a space rock.

Enjoy the flight, and be sure to turn up the volume for the full audio guide experience.

Processing notes:

This film was created using the Mars Express High Resolution Stereo Camera Mars Chart (HMC30) data, an image mosaic made from single orbit observations of the mission’s High Resolution Stereo Camera (HRSC). The mosaic image, centred at 5°N/320°E, is combined with topography information from the digital terrain model to generate a three-dimensional landscape.

For every second of the movie, 50 separate frames are rendered following a predefined camera path in the scene. The vertical exaggeration used for the animation is three-fold. Atmospheric effects, like clouds and haze, have been added to conceal the limits of the terrain model. The haze starts building up at a distance of 250 km.

The HRSC camera on Mars Express is operated by the German Aerospace Center (DLR). The systematic processing of the camera data took place at the DLR Institute for Planetary Research in Berlin-Adlershof. The working group of Planetary Science and Remote Sensing at Freie Universität Berlin used the data to create the film.

Access the related broadcast quality footage.

English ESA Open Day 2025: an unforgettable day inside ESRIN

On 26 September 2025, the European Space Agency welcomed the public to ESRIN, its centre for Earth Observation programmes near Rome. Visitors had the unique opportunity to step inside ESA and discover how space science and innovation are shaping our future. From protecting our planet to unveiling the mysteries of the Universe, nearly 2 000 attendees embarked on a journey through ESA’s mission and vision.

Italiano ESA Open Day 2025: una giornata indimenticabile alla scoperta dell’ESRIN
Il 26 settembre 2025, l’Agenzia Spaziale Europea ha aperto le porte al pubblico presso l’ESRIN, il centro dedicato ai programmi di Osservazione della Terra, vicino a Roma. I visitatori hanno avuto l’opportunità unica di entrare nel cuore dell’ESA e scoprire come la scienza e l’innovazione spaziale stanno plasmando il nostro futuro. Dalla protezione del pianeta alla scoperta dei misteri dell’Universo, quasi 2 000 partecipanti hanno intrapreso un viaggio attraverso le missioni dell’ESA.