DRDO & Indian Air Force carry out successful flight tests of indigenously-developed smart anti-airfield weapon
Two different configurations on satellite navigation & electro optical sensors tested successfully
First Electro optical seeker based flight test of this class of bomb in the country
Equipped with Imaging Infra-Red Seeker technology to enhance precision strike capability of the weapon
Maximum range of 100 kms
Two flight tests of indigenously-developed smart anti-airfield weapon have been carried out jointly by Defence Research & Development Organisation (DRDO) and Indian Air Force (IAF). The two different configurations based on satellite navigation and electro optical sensors have been successfully tested. Electro optical seeker based flight test of this class of bomb has been conducted for the first time in the country. The electro optic sensor has been developed indigenously. The weapon was launched by an IAF aircraft from Chandan ranges at Jaisalmer, Rajasthan on October 28, 2021 and November 03, 2021.
Electro optical configuration of the system is equipped with Imaging Infra-Red (IIR) Seeker technology enhancing the precision strike capability of the weapon. In both the tests, the intended target was hit with high accuracy. The system is designed for a maximum range 100 kilometres. The newly adapted launcher ensured smooth release and ejection of the weapon. Advanced guidance and navigation algorithms, software performed as per the mission requirements. The telemetry and tracking systems captured all mission events throughout the flight. All the mission objectives were achieved.
Smart anti airfield weapon has been designed and developed by Research Centre Imarat (RCI) in coordination with other DRDO Laboratories and extensive support from IAF. Quality and design certification agencies have contributed significantly in its development and Hindustan Aeronautics Limited (HAL), Bengaluru has carried out weapon integration with the aircraft.
Raksha Mantri Shri Rajnath Singh has complimented the synergistic efforts of DRDO, IAF and the teams associated with the mission. Congratulating the teams, Secretary, Department of Defence R&D and Chairman DRDO Dr G Satheesh Reddy said the performance and reliability of the weapon has been proved.
Two different configurations on satellite navigation & electro optical sensors tested successfully
First Electro optical seeker based flight test of this class of bomb in the country
Equipped with Imaging Infra-Red Seeker technology to enhance precision strike capability of the weapon
Maximum range of 100 kms
Two flight tests of indigenously-developed smart anti-airfield weapon have been carried out jointly by Defence Research & Development Organisation (DRDO) and Indian Air Force (IAF). The two different configurations based on satellite navigation and electro optical sensors have been successfully tested. Electro optical seeker based flight test of this class of bomb has been conducted for the first time in the country. The electro optic sensor has been developed indigenously. The weapon was launched by an IAF aircraft from Chandan ranges at Jaisalmer, Rajasthan on October 28, 2021 and November 03, 2021.
Electro optical configuration of the system is equipped with Imaging Infra-Red (IIR) Seeker technology enhancing the precision strike capability of the weapon. In both the tests, the intended target was hit with high accuracy. The system is designed for a maximum range 100 kilometres. The newly adapted launcher ensured smooth release and ejection of the weapon. Advanced guidance and navigation algorithms, software performed as per the mission requirements. The telemetry and tracking systems captured all mission events throughout the flight. All the mission objectives were achieved.
Smart anti airfield weapon has been designed and developed by Research Centre Imarat (RCI) in coordination with other DRDO Laboratories and extensive support from IAF. Quality and design certification agencies have contributed significantly in its development and Hindustan Aeronautics Limited (HAL), Bengaluru has carried out weapon integration with the aircraft.
Raksha Mantri Shri Rajnath Singh has complimented the synergistic efforts of DRDO, IAF and the teams associated with the mission. Congratulating the teams, Secretary, Department of Defence R&D and Chairman DRDO Dr G Satheesh Reddy said the performance and reliability of the weapon has been proved.
Both comparable versions of Javelin and Spike MR have same range and similar penetration behind ERA, to MPATGM. Do not compare heavier versions and vehicle launched versions of those missiles.
Javelin has a range of 4km. Spike LR has a range of 4km. MMP has a range of 4.5km. This is known published ranges.
Obviously the Javelin has been upgraded and Spike LR is different but tha twould explain the delay
Successful Flight Test of Vertical Launch Short Range Surface to Air Missile
Posted On: 07 DEC 2021 6:16PM by PIB Delhi
Vertical Launch Short Range Surface to Air Missile was successfully flight tested today by Defence Research & Development Organisation (DRDO) from Integrated Test Range, Chandipur, off the coast of Odisha. The launch was conducted from a vertical launcher against an electronic target at a very low altitude. The flight path of the vehicle along with health parameters were monitored using a number of tracking instruments deployed by ITR, Chandipur. All sub-systems performed as per expectation.
Today’s launch of the system was conducted to validate integrated operation of all weapon system components including the vertical launcher unit with controller, canisterised flight vehicle, weapon control system etc. required for future launches of the missile from Indian Naval Ships. The test launch was monitored by senior officials from DRDO & Indian Navy. The first trial was conducted on 22 February 2021 and this is confirmatory trial to prove the consistent performance of the configuration and integrated operation.
Posted On: 07 DEC 2021 6:16PM by PIB Delhi
Vertical Launch Short Range Surface to Air Missile was successfully flight tested today by Defence Research & Development Organisation (DRDO) from Integrated Test Range, Chandipur, off the coast of Odisha. The launch was conducted from a vertical launcher against an electronic target at a very low altitude. The flight path of the vehicle along with health parameters were monitored using a number of tracking instruments deployed by ITR, Chandipur. All sub-systems performed as per expectation.
Today’s launch of the system was conducted to validate integrated operation of all weapon system components including the vertical launcher unit with controller, canisterised flight vehicle, weapon control system etc. required for future launches of the missile from Indian Naval Ships. The test launch was monitored by senior officials from DRDO & Indian Navy. The first trial was conducted on 22 February 2021 and this is confirmatory trial to prove the consistent performance of the configuration and integrated operation.
Impressive take off speed. On par if not better than most PDMS available globally.
Love the flame colour.
The launcher & missile configuration is pretty much exactly what we saw in those tenders.
The expected load out for the VL-SARSAM in any Indian frigate/destroyer is 16 missiles on the fore deck & 16 missiles at the rear. 32 VL-SRSAM missiles in total along with 32 Barak-8 LR-SAMs. Equal number of PDMS & LR-SAMs just feels wrong. There is plenty of space available for twice the number of VL-SRSAMs.
Ships already sporting B8 won't receive this.Love the flame colour.
The launcher & missile configuration is pretty much exactly what we saw in those tenders.
The expected load out for the VL-SARSAM in any Indian frigate/destroyer is 16 missiles on the fore deck & 16 missiles at the rear. 32 VL-SRSAM missiles in total along with 32 Barak-8 LR-SAMs. Equal number of PDMS & LR-SAMs just feels wrong. There is plenty of space available for twice the number of VL-SRSAMs.
LR SAM is a full spectrum SAM. The minimum engagement range for B8 is good enough to counter highly manuverable anti ship missiles.
It will go on NGCs, NGMVs, P28, Hopefully Delhi Class and maybe even Talwars.
Ministry of Defence
DRDO & Indian Air Force successfully flight-test indigenous Stand-Off Anti-Tank Missile
DRDO & Indian Air Force successfully flight-test indigenous Stand-Off Anti-Tank Missile
Posted On: 11 DEC 2021 5:49PM by PIB Delhi
Defence Research and Development Organisation (DRDO) and Indian Air Force (IAF) flight-tested the indigenously designed and developed Helicopter launched Stand-off Anti-tank (SANT) Missile from Pokhran ranges on December 11, 2021. The flight-test was successful in meeting all its mission objectives. The release mechanism, advanced guidance and tracking algorithms, all avionics with integrated software, performed satisfactorily and tracking systems monitored all mission events. The missile is equipped with a state-of-the-art MMW seeker which provides high precision strike capability from a safe distance. The weapon can neutralise targets in a range up to 10 kms.
The SANT missile has been designed and developed by Research Centre Imarat (RCI), Hyderabad in coordination with other DRDO labs and participation from industries. This is the third in the series of indigenous stand-off weapons to be tested in recent times after long range bomb and smart anti airfield weapon for strengthening the arsenal of IAF. The indigenous development of various configurations for different applications with advanced technologies is a firm march towards ‘Aatmanirbharta’ in defence.
Raksha Mantri Shri Rajnath Singh has congratulated the team associated with the mission. Secretary Department of Defence R&D and Chairman DRDO Dr G Satheesh Reddy said the successful flight test of SANT missile would further bolster the indigenous defence capabilities.
DRDO & Indian Air Force successfully flight-test indigenous Stand-Off Anti-Tank Missile
No necessarily. Barak 8 is very expensive putting a mix would be better.
Also, five years back IN showed requirement of 14-15 SRSAM systems presumably for four P28s and all new frigates and destroyers on order. And DAC gave go ahead of import for 4 P28 ships.
Navy's Ship-based Anti-Air Missile Contest Begins Today
An Indian Navy procurement contest to choose a short-range surface to air missile (SRSAM) system for its Kamorta-class anti submarine ships begins today. The procurement to meet an urgent requirement for the new in-service corvettes could pave the way for expanded orders for future ships...
www.livefistdefence.com
This was a text book launch, where the entire trajectory was monitored by the electro optic telemetry system, various range radars, including the "down range instrumentation and down range ships". The missile carried a torpedo, parachute delivery system and release mechanisms.
What are these highlighted?
Great pictures of the SMART. We can clearly see the different stages & other features of the missile. In the edited pic below the green arrows indicate the skid rings that help in the smooth ejection of the missile the pads are probably rubberized. 1st stage is marked as section 1, the control section is marked 2, the 2nd stage is marked 3 & the payload section is marked 4.
The payload section is about as long as the 2nd stage. Strange. Are those exhaust ports on the nose ? Some sort of an active vectoring system ? You would need that to evade modern shipbourne missile defence systems especially with the SMART's range and flight profile.
Very interesting weapon system. Hope we learn more in the future.
The payload section is about as long as the 2nd stage. Strange. Are those exhaust ports on the nose ? Some sort of an active vectoring system ? You would need that to evade modern shipbourne missile defence systems especially with the SMART's range and flight profile.
Very interesting weapon system. Hope we learn more in the future.
INS Dhruv was probably sitting near the designated target spot for a better look at the terminal phase of the missile. The terminal phase of the SMART is the parachute assisted release of the torpedo.
The question is- if you are already detecting the submarine through a ship or MPA, why not use the helicopters on board the ship or the weapons on the MPA to kill it? What exactly is the requirement of this system?
