Indian Defense
NASA Evinces Interest In Buying High-End Sensors Developed Indigenously For Chandrayaan-3
K V Sriram Director LEOS, acknowledged that NASA had technically assisted ISRO in its first two moon missions. However, Chandrayaan-3 was purely an “indigenous effort”, he said
Chennai: US space agency NASA has evinced interest in purchasing the high-end sensors developed indigenously by India for Chandrayaan-3, according to K V Sriram, director of ISRO’s Laboratory for Electro-Optics Systems (LEOS).
A crucial ‘correction’ made by the LEOS-developed Landing Horizontal Velocity Camera (LHVC) just 20 seconds before touchdown ensured that the Vikram lander had a soft landing on the moon’s previously unexplored south pole, Sriram said at a webinar organised by the Raman International Optronics Society in association with the University of Kerala.
“Chandrayaan-3 calls for a different dimension in terms of development of all sub-systems including sensors, which is unique to ISRO. Now, NASA has come forward saying they are interested in some of the sensors we have used,” Sriram said. The US space agency was keen to know more about the technology used and also evinced interest in purchasing them, he said.
“They (NASA) are very interested in further collaborations. Artemis is one of NASA’s future missions which will take humans to space. They want India to participate in such missions. This is the level of global cooperation that such lunar missions initiate,” he said.
Sriram acknowledged that NASA had technically assisted ISRO in its first two moon missions. However, Chandrayaan-3 was purely an “indigenous effort”, he said. “Absolutely no support from anybody, except some ground stations in other countries to receive the data,” he said.
Sriram also spoke about the key components developed by LEOS that played a crucial role in Chadrayaan-3. One such was the LHVC which was initially developed by LEOS for Chandrayaan-2 and was also adopted for the Chandrayaan-3 mission. Placed on board the Vikram lander, LHVC not only clicked the first images of the moon’s south pole surface but also proved a life-saver for the entire mission.
“When less than 20 seconds were available, it gave a correction on velocity, which really made the touchdown a very soft landing. If the correction was not done, it would have accumulated an error that would have got a kind of a big jolt on the landing phase,”
Sriram said. It was at this very juncture that the previous moon mission had failed. Sriram said there were grim chances of reviving the Vikram lander and Pragyan rover on the moon’s surface given that they have spent around three lunar cycles with huge variations in temperature.
“We need to devise certain protective systems to shield the lander and rover from the extreme weather. These will be taken care of in future missions,” he added. However, the ‘hop-test’ carried out by ISRO in which the lander fired its engines on command, elevated itself and moved a short distance, holds great promise, he said. It has proven that ISRO could make the return of both samples and humans from the moon possible, he said.
Indian Defense
INS Arihant’s Nuke-Capable K-4 Submarine-Launched Ballistic Missile ‘Ready To Roll’
The solid-fuelled K-4 missile is being developed by DRDO to arm the country’s nuclear-powered submarines in the shape of INS Arihant and its under-development sister vessels. INS Arihant, which became fully operational in November 2018 to complete India’s nuclear triad, is currently armed with the much shorter K-15 missiles with a 750 km range.
“The K-4 is now virtually ready for its serial production to kick-off. The two tests have demonstrated its capability to emerge straight from underwater and undertake its parabolic trajectory,” said a source.
India has the land-based Agni missiles, with the over 5,000-km Agni-V inter-continental ballistic missile now in the process of being inducted, and fighter jets jury-rigged to deliver nuclear weapons. But INS Arihant gives the country’s deterrence posture much more credibility because nuclear-powered submarines armed with nuclear-tipped missiles are considered the most secure, survivable and potent platforms for retaliatory strikes.
Once the K-4 missiles are inducted, they will help India narrow the gap with countries like the US, Russia and China, which have over 5,000-km range SLBMs. The K-4 missiles are to be followed by the K-5 and K-6 missiles in the 5,000-6,000 km range class.
The 6,000-ton INS Arihant, which is propelled by an 83 MW pressurised light-water reactor at its core, in turn, is to be followed by INS Arighat, which was launched in 2017. The next generation of nuclear submarines, currently called S-4 and S-4*, will be much larger in size.
Indian Defense
After Upgradation, Sukhoi Su-30MKI Indigenisation To Reach 78%
India has received clearance to upgrade 84 Sukhoi Su-30MKI fighter jets, which will result in 78% indigenization after the upgrade
In a significant step towards bolstering its military might with indigenously developed technology, India is poised to witness its Russian-origin Sukhoi Su-30MKI fighter jets evolve into a domestic platform. Speaking at a recent lecture.
The upgrade program is being led by Hindustan Aeronautics Limited (HAL) in partnership with the Indian Air Force and other partners. The upgrade is expected to cost US$7.5 billion.
This initiative is a part of a larger effort by the Indian Air Force to modernize its ageing fleet. Air Chief Marshal Chaudhari asserted the critical role of an offensive air force as demonstrated in current global conflicts and emphasized India’s move towards an indigenized arsenal. To this end, the IAF has been proactive, from upgrading its Mirage 2000 to enhancing its MiG-29 fleet.
In summary, the IAF’s commitment to updating their combat forces with the latest technology, including shifting to fifth-generation fighter jets, ensures operational preparedness and a strong deterrence capability. The gradual indigenization of its air fleet marks a pivotal shift in India’s defence landscape, reducing dependency on foreign imports and fostering technological sovereignty.
Indian Defense
Akash Weapon System Exports For The Armenian Armed Forces Gathers Pace
According to unconfirmed reports, Armenia is a top contender for an export order for Akash SAM system manufactured by Bharat Dynamics Limited (BDL).
The Akash export version will also be slightly different from the one inducted by the armed forces. The 100-km range air-to-air Astra missiles, now entering production after successful trials from Sukhoi-30MKI fighters, also have “good export potential”, said sources.
Akash is a “tried, tested and successfully inducted systems”. Indian armed forces have ordered Akash systems worth Rs 24,000 crore over the years, and MoD inked a contract in Mar 2023 of over Rs 9,100 crores for improved Akash Weapon System
BDL is a government enterprise under the Ministry of Defence that was established in 1970. BDL manufactures surface-to-air missiles and delivers them to the Indian Army. BDL also offers its products for export.
Akash Weapon System
The AWS is a Short Range Surface to Air Missile (SRSAM) Air Defence System, indigenously designed and developed by Defence Research and Development Organisation (DRDO). In order to meet aerial threats, two additional Regiments of AWS with Upgradation are being procured for Indian Army for the Northern borders. Improved AWS has Seeker Technology, Reduced Foot Print, 360° Engagement Capability and improved environmental parameters.
The project will give a boost to the Indian missile manufacturing industry in particular and the indigenous defence manufacturing ecosystem as a whole. The project has overall indigenous content of 82% which will be increased to 93% by 2026-27.
The induction of the improved AWS into the Indian Army will increase India’s self-reliance in Short Range Missile capability. This project will play a role in boosting the overall economy by avoiding outgo of precious foreign exchange to other countries, increasing employment avenues in India and encouraging Indian MSMEs through components manufacturing. Around 60% of the project cost will be awarded to the private industry, including MSMEs, in maintaining the supply chain of the weapon system, thereby creating large scale of direct and indirect employment.
-
Solar Energy3 years ago
DLR testing the use of molten salt in a solar power plant in Portugal
-
world news1 year ago
Gulf, France aid Gaza, Russia evacuates citizens
-
Camera1 year ago
DJI Air 3 vs. Mini 4 Pro: which compact drone is best?
-
Camera4 years ago
Charles ‘Chuck’ Geschke, co-founder of Adobe and inventor of the PDF, dies at 81
-
Solar Energy1 year ago
Glencore eyes options on battery recycling project
-
world news1 year ago
Strong majority of Americans support Israel-Hamas hostage deal
-
Camera1 year ago
Sony a9 III: what you need to know
-
Indian Defense3 years ago
Israeli Radar Company Signs MoU To Cooperate With India’s Alpha Design Technologies