ISRO all set to launch NISAR satellite to study earth
After lifting off from the second launch pad of the Satish Dhawan Space Centre in Sriharikota at 5.40 p.m. on July 30, the GSLV-F16 rocket will inject the NISAR satellite into a 743-km sun-synchronous orbit.
Explained | What are ISRO and NASA aiming to achieve with the NISAR satellite?
The NISAR satellite, weighing 2,392 kg, is a unique Earth observation satellite. It will be the first satellite to observe the Earth with a dual-frequency Synthetic Aperture Radar (SAR) — NASA's L-band and ISRO's S-band — both using NASA's 12-metre unfurlable mesh reflector antenna, integrated with ISRO's modified I3K satellite bus.
With a mission life of five years, NISAR will observe earth with a swathe of 242 km and high spatial resolution, using SweepSAR technology for the first time.
Day-and-night data
'The satellite will scan the entire globe and provide all-weather, day-and-night data at 12-day intervals, and enable a wide range of applications. NISAR can detect even small changes in the earth's surface, such as ground deformation, ice sheet movement, and vegetation dynamics. Further applications include sea ice classification, ship detection, shoreline monitoring, storm characterisation, changes in soil moisture, mapping and monitoring of surface water resources, and disaster response,' the ISRO said.
The NISAR mission is broadly classified into different phases – launch, deployment, commissioning and science phases.
In the launch phase, the satellite will be launched by the GSLV-F16 launch vehicle, while in the deployment phase, a 12-metre reflector antenna will be deployed in orbit nine metres away from the satellite by a complex multistage deployable boom. This will be followed by the commissioning phase.
'The first 90 days after launch will be dedicated to commissioning, or in-orbit checkout, the objective of which is to prepare the observatory for science operations. Commissioning is divided into sub-phases of initial checks and calibrations of mainframe elements followed by JPL engineering payload and instrument checkout,' ISRO said.
The final science operations phase begins at the end of commissioning and extends till the end of NISAR's five-year mission life.
'During this phase, the science orbit will be maintained via regular manoeuvres, scheduled to avoid or minimise conflicts with science observations. Extensive calibration and validation activities will take place,' ISRO said.
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
&w=3840&q=100)
Business Standard
3 hours ago
- Business Standard
Collaboration for future: Isro and India will benefit from Nasa
Artemis signup allows Isro and the fast-growing Indian aerospace sector to bid for Nasa tenders and the famously frugal Indian engineering sector could find opportunities there and pick up new skills Business Standard Editorial Comment Mumbai Listen to This Article The successful launch of the Nisar (Nasa-Isro Synthetic Aperture Radar) satellite from the Satish Dhawan Space Centre marks the second big mission where the two space agencies have joined hands, coming soon after gaganaut Shubhanshu Shukla travelled to the International Space Station on the Axiom 4 mission. This may be the precursor to more cooperation between the agencies, given that India in 2023 signed up for the Artemis Accords. The Artemis Accords provide a common set of principles for civil exploration and use of outer space. While both agencies benefit from cooperation, the Indian Space Research Organisation (Isro) may benefit
NDTV
4 hours ago
- NDTV
NASA Astronaut Back In Orbit 20 Years After Bihu Dance On International Space Station
NASA astronaut Mike Fincke is currently aboard the International Space Station (ISS) as part of the newly launched SpaceX Crew-11 mission. This isn't his first time in orbit. His return to space brings back a special memory of the time he danced Bihu in zero gravity. Mr Fincke had famously performed the traditional Assamese dance during a previous expedition to the ISS in 2004. Wearing a red-and-white gamusa (an Assamese scarf) around his neck, Mr Fincke floated in microgravity, executing the traditional steps. What's #RongaliBihu without song and dance. Here's #NASA astronaut Mike Fincke performing Bihu aboard the International Space Station in 2004. Mike is Assam's son-in-law, married to Renita Saikia, who also works at NASA. — Anupam Bordoloi (@asomputra) April 13, 2019 Mr Fincke is married to Renita Saikia, a NASA official originally from Assam. They have three children - Chandra, Tarali, and Surya. Mr Fincke was the first astronaut to become a father while in space, as per The Telegraph. During a visit to Assam in 2009, Mr Fincke addressed school students and encouraged them to dream big, saying, "This should not be the last Bihu in space. There should be somebody from you to dance Bihu in space." Now, over two decades later, he is once again orbiting Earth, this time alongside fellow NASA astronaut Zena Cardman, JAXA astronaut Kimiya Yui, and Roscosmos cosmonaut Oleg Platonov. The crew lifted off from NASA's Kennedy Space Center in Florida on August 1 and will spend the next six months on board the ISS conducting research that supports future missions to the Moon and Mars. After the members of Crew-11 enter the @Space_Station, the full station crew takes part in a welcome ceremony, marking the beginning of Crew-11's mission aboard the orbital outpost. — NASA (@NASA) August 2, 2025 The Dragon capsule docked with the ISS early Saturday, August 2, and the crew was welcomed aboard shortly after. Their mission includes testing technologies for long-term space travel, studying human health in microgravity, and conducting biological and physical science experiments. Acting NASA Administrator Sean Duffy called the launch "the first step toward our permanent presence on the Moon" and part of the Artemis programme, which aims to return humans to the lunar surface in 2026.
India Today
9 hours ago
- India Today
Step inside Hope: Isro's attempt to mimic life on the Moon in Ladakh
The Indian Space Research Organisation (Isro) has launched the Himalayan Outpost for Planetary Exploration (HOPE) mission, a critical analogue simulation running from August 1 to 10, 2025, in Ladakh's Tso Kar mission is a major step in India's preparation for future human spaceflight and interplanetary exploration, including missions to the Moon and is set up in one of Earth's most Mars-like environments — a high-altitude cold desert at 4,530 meters above sea level characterised by extreme cold, low air pressure, high ultraviolet radiation, and saline This makes the Tso Kar Valley an ideal terrestrial analogue for testing conditions that astronauts will face on other planetary surfaces. The HOPE habitat consists of two interconnected modules: an 8-meter-wide living space for the crew and a 5-meter utility unit housing essential equipment and compact, self-sustaining habitat includes facilities such as hydroponic farming, kitchen, sanitary provisions, and circadian lighting, designed to simulate life-support systems for extended space the 10-day mission, two crew members remain inside the habitat, undergoing experiments that test physical, psychological, and cognitive responses to isolation, low oxygen, and other stressors similar to from premier Indian institutes, including IIT Bombay, IIT Hyderabad, IIST Trivandrum, RGCB Trivandrum, and the Institute of Aerospace Medicine—are conducting studies on crew health monitoring, planetary surface operations, microbial collection, and advanced medical Human Space Flight Centre leads the HOPE project in collaboration with industry partners and research institutions. The mission serves as a rehearsal for the future enabling India to validate technologies, protocols, and human endurance necessary for sustainable human presence beyond is part of India's broader vision to advance human spaceflight capabilities, including the goal of an Indian crewed lunar landing by 2040, as well as eventual Mars simulating these harsh extraterrestrial conditions on Earth, Isro is building vital expertise in life-support systems, habitats, and mission planning that are crucial for pioneering space exploration and establishing India's role as a major player in future planetary exploration efforts.- Ends
