“Thanks to ambitious science missions like TRISHNA, our industry has reached a technological maturity that opens up a new era of commercial observation of the Earth and all related applications,” said Jean-Marc Nasr, Head of Space Systems at Airbus. “France’s world-leading expertise in the Earth observation export market, combined with the unmatched efficiency and ambition of the Indian Space industry, is going to bring thermal infrared imagery to a new level. This will enable breakthrough applications in agriculture, urban and coastal zone management, meteorology, climate science, and many commercial applications.”
Airbus Will Support France And India To Monitor Climate Change With TRISHNA
The Centre National d’Etudes Spatiales (CNES) announced on 20 April 2020 that it had recently signed a contract with Airbus Defence and Space for the development and manufacture of the thermal infrared instrument for the TRISHNA satellite.
TRISHNA (Thermal infraRed Imaging Satellite for High resolution Natural resource Assessment) will be the latest satellite in the joint Franco-Indian satellite fleet dedicated to climate monitoring and operational applications. CNES and the Indian Space Research Organisation (ISRO) are partnering on the development of an infrared observation system with high thermal resolution and high revisit capability, including a satellite and associated ground segment.
TRISHNA observations will enhance understanding of the water cycle and improve management of the planet’s precious water resources, to better define the impacts of climate change, especially at local levels.
In the international partnership workshare, ISRO will provide the platform, the visible and short wave infrared instrument, and will be the prime contractor for the satellite, while CNES will be co-responsible for the mission and will provide the thermal infrared instrument, to be developed by Airbus. The ground segment will be shared between both countries.
For this mission, Airbus is leveraging the latest innovations and synergies from other programmes (IASI-NG, CO3D…) to offer an affordable high performance instrument, with the aim of encouraging development of a commercial market.
Measuring surface temperatures provides information on hydric stress – a lack of water- and its impact on the vegetative cycle, and this monitoring of water and energy cycles is one of the main objectives of the mission, to be applied particularly in agriculture and hydrology. This mission will also serve numerous other applications: surveillance of continental and coastal waters, follow up of urban heat traps, risk monitoring (fire detection and volcanic activity), study of the cryosphere (glaciers, frozen lakes), and radiation budget assessment.
TRISHNA represents a significant step forward, both in terms of resolution and refresh rate, compared with existing missions, improving research opportunities, and enabling further development of applications.
While existing missions are limited in terms of resolution (above 1km) and with revisit only every few weeks, TRISHNA will image the Earth every three days, at 50m resolution, observing a wide temperature range, from approx. -20°C to +30°C, with high precision (0.3°C).