India successfully achieves autonomous landing of space vehicle
On Sunday, India moved ahead in getting its own reusable launch vehicle or reusable rocket (simply similar to a space shuttle) with the country’s space agency successfully completing the Reusable Launch Vehicle Autonomous Landing Mission (RLV LEX).
In a first in the world, a winged body has been carried to an altitude of 4.5 km by helicopter and released for carrying out an autonomous landing on a runway. According to Indian Space Research Organisation (ISRO), the RLV took off at 7:10 a.m. IST by a Chinook Helicopter of the Indian Air Force as an underslung load and flew to a height of 4.5 km (above the mean seal level-MSL).
The test was conducted at the Aeronautical Test Range (ATR), Chitradurga, Karnataka in the early hours on April 2, 2023.
The Indian space agency said adapting contemporary technologies developed for RLV LEX makes other operational rockets more cost-effective.
According to Indian Space Research Organisation (ISRO), the RLV took off at 7:10 a.m. IST by a Chinook Helicopter of the Indian Air Force as an underslung load and flew to a height of 4.5 km (above the mean seal level-MSL).
Once the predetermined pillbox parameters were attained, based on the RLV’s Mission Management Computer command, the RLV was released in mid-air, at a down range of 4.6 km.
The Indian space agency said the release conditions included 10 parameters covering position, velocity, altitude and body rates, and others.
The release of RLV was autonomous. RLV then performed approach and landing maneuvers using the integrated navigation, guidance & control system and completed an autonomous landing on the ATR airstrip at 7:40 a.m. IST. With that, ISRO successfully achieved the autonomous landing of a space vehicle.
The autonomous landing was carried out under the exact conditions of a Space Re-entry vehicle’s landing – high speed, unmanned, precise landing from the same return path – as if the vehicle arrives from space. Landing parameters such as ground relative velocity, the sink rate of landing gears, and precise body rates, as might be experienced by an orbital re-entry space vehicle in its return path, were achieved, ISRO said.
The RLV LEX demanded several state-of-the-art technologies including accurate navigation hardware and software, pseudolite system, Ka-band Radar Altimeter, NavIC receiver, indigenous landing gear, aerofoil honey-comb fins, and brake parachute system.
RLV is essentially a space plane with a low lift-to-drag ratio requiring an approach at high glide angles that necessitated a landing at high velocities of 350 kmph.
According to ISRO, the LEX had used several indigenous systems like the navigation systems based on pseudolite systems, instrumentation, and sensor systems and others developed by it.
Digital Elevation Model (DEM) of the landing site with a Ka-band Radar Altimeter provided accurate altitude information.
Extensive wind tunnel tests and computational fluid dynamics (CFD) simulations enabled aerodynamic characterization of RLV before the flight.
ISRO demonstrated the re-entry of its winged vehicle RLV-TD in the HEX mission in May 2016. The re-entry of a hypersonic sub-orbital vehicle marked a major accomplishment in developing reusable rockets.
In HEX, the vehicle landed on a hypothetical runway over the Bay of Bengal. Precise landing on a runway was an aspect not included in the HEX mission.
On Sunday, the LEX mission achieved the final approach phase that coincided with the re-entry return flight path exhibiting an autonomous, high speed (350 kmph) landing. The LEX began with an Integrated Navigation test in 2019 and followed multiple Engineering Model Trials and Captive Phase tests in subsequent years.
[With Inputs from IANS]
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Wish all the success in their space endeavors. Arjun went to Heaven on his own skills. ISRO will repeat that success.