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”ISRO is projecting the first quarter of next year. So, I mean, that’s ready,” NASA NISAR Project Manager Phil Barela said during a media interaction here on Wednesday.
He is expecting the launch of NISAR (spelt as ‘Naisar’) ”not earlier than January” from the Satish Dhawan Space Centre at Sriharikota aboard the ISRO Geosynchronous Satellite Launch Vehicle Mark-II.
The mission, which has three-year duration, aims to survey all of Earth’s land and ice-covered surfaces every 12 days. This will start after a 90-day satellite commissioning period.
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NASA Jet Propulsion Laboratory Director Dr Laurie Leshin said the NISAR project is ”better than anything that was flown in the past”. ”While there are datasets from past missions that can form sort of a baseline, this is a new level of capability that we will have with NISAR,” she had told reporters on Tuesday.
”If it’s working very well, we will almost certainly extend that mission to get that longer baseline. It is a very important thing to see the Earth change on multi-year timescales. This is what we are looking for,” Leshin had said.
According to ISRO, NISAR is a Low Earth Orbit (LEO) observatory being jointly developed by it and NASA.
NISAR will map the entire globe in 12 days and provide spatially and temporally consistent data for understanding changes in the Earth’s ecosystems, ice mass, vegetation biomass, sea level rise, ground water and natural hazards, including earthquakes, tsunamis, volcanoes and landslides. In a handout, NASA said the project aims to understand the dynamics of carbon storage and uptake in wooded, agricultural, wetland and permafrost ecosystems and the response of ice sheets to climate change, the interaction of sea ice and climate, and impacts on sea level rise worldwide.
NISAR will have Synthetic Aperture Radar Instrument (SAR), L-band SAR, S-band SAR and Antenna reflector.
According to NASA, the onboard instruments can even see a minor change of even one centimetre from space.
The SUV-size satellite has a mass of roughly 2,800 kg, which will be powered by two solar arrays providing about four kilowatts of power.
The six feet tall ‘spacecraft bus’ will contain the command and communication systems for the instrument payload, which houses the two SAR instruments.
”The ‘bus’ will also support the radar antenna reflector and its boom. There is enough fuel aboard to support at least five years of operations,” the handout said.