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India developing Radar-destroying Anti- Radiation Missiles

Ambitious.Asian

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After the success of Agni-V project India is developing an Anti-Radiation Missile (ARM) which can hugely multiply the strike capabilities by destroying the enemy's advance warning system. Production of the ARM, which are among the most advanced missiles, is being undertaken on priority basis by the Defence Research and Development Laboratory (DRDL), which specialises in the missile development. Such missiles can be mounted on Sukhoi fighter planes Su-30 MKI, 140 of which have already been acquired by India from Russia and around 100 more are expected to be delivered in due course of time. These missile can detect a radar by tracking its electro-magnetic radiation and pulses generated, an official told PTI, adding these would be independent of the radar wavelength and be able to destroy it. Such missiles currently in use of some major powers like the US, can detect and attack a radar antenna or transmitter with minimal aircrew input. The proportional guidance system that homes in on enemy radar emissions has a fixed antenna and seeker head in the missile's nose. The Anti Radiation Missiles in use by the US Air Force move at the speed of over Mach 2, propelled by a smokeless and solid propellant rocket motor.

The US Air Force introduced High Speed Anti-Radiation Missiles (HARM) on the F-4G Wild Weasel and later on specialised F-16s equipped with the HARM Targeting System (HTS).


India developing radar-destroying Anti-Radiation Missile - India - DNA
 
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I was unaware about this kind of missile got a good video which explains its functionality sharing with others


This is a good development....

:sniper:
 
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I am not sure what this does, but what ever it does, it better does.:angry: . Go Ahead DRDO strap on the boosters.
 
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Bro you did not post the remaining article which is equally important.

From the same LINK.


Other projects being undertaken on priority basis by the DRDO are Long Range Air-to-Air Missile and Short Range Surface-to-Air Missile.

The flight test and production clearance of Medium Range Surface-to-Air Missiles is also on the cards.

The DRDO is also planning guided flight of Astra Missile from ground and air in the near future.

Operationalisation of the third regiment of BrahMos missile for Army, its integration with Su-30 MKI as also underwater trials from pontoon are also on the priority list.

DRDO is also working on early static validation trials of Pinaka MK-II rocket, with an extended range of 60 kms, along with user trials of its warhead.

Flight trial of 'Prahar' missile as tactical battlefield surface-to-surface weapon system is also in the pipeline.

Therefore,

1. In design phase----- ARM, SR-SAM, LR-AAM (Novator KS 172 ?)

2. In testing phase------ MR-SAM (israeli collab.), Astra, Prahar.

3. Static validation------ Pinaka 2.
 
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I thought India was working with Russia on a JV on the Novator project ( K-100). Is this going to be any different?
 
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I thought India was working with Russia on a JV on the Novator project ( K-100). Is this going to be any different?

The K100 is meant to be an anti AWACS missile, with very long range, therefor big size and weight. This missile should be a smaller and lighter air to ground missile, that should be carried in bigger numbers and from any platform, while K100 might not be useful from LCA for example.
 
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I thought India was working with Russia on a JV on the Novator project ( K-100). Is this going to be any different?

Isn't K-100 AOA ? with 200 + km range ? It is not radar destroying.

what if Radar get off after launching missile ? Any other means of guidance it have ?
 
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Isn't K-100 AOA ? with 200 + km range ? It is not radar destroying.

what if Radar get off after launching missile ? Any other means of guidance it have ?

even if the radar is switched off once it got located the missile will know the location and will hit the target.
 
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what if Radar get off after launching missile ? Any other means of guidance it have ?

If the missile has additional sat guidance, the GPS data can be feeded and would be enough to hit fixed targets. Another problem is that destroying the radar alone doesn't delete the SAM threat, because the missiles are still there (often located in a certain distance to the radar) and could be guided by another radar again, so ARM alone isn't enough for SEAD.
 
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India developing radar-destroying Anti-Radiation Missile

After the success of Agni-V project, India is developing an Anti-Radiation Missile (ARM) which can hugely multiply the strike capabilities by destroying the enemy's advance warning system.

Production of the ARM, which are among the most advanced missiles, is being undertaken on priority basis by the Defence Research and Development Laboratory (DRDL), which specialises in the missile development.

Such missiles can be mounted on Sukhoi fighter planes Su-30 MKI, 140 of which have already been acquired by India from Russia and around 100 more are expected to be delivered in due course of time.

These missile can detect a radar by tracking its electro-magnetic radiation and pulses generated, an official told PTI, adding these would be independent of the radar wavelength and be able to destroy it.

Such missiles, currently in use of some major powers like the US, can detect and attack a radar antenna or transmitter with minimal aircrew input.

The proportional guidance system that homes in on enemy radar emissions has a fixed antenna and seeker head in the missile's nose.

The Anti-Radiation Missiles in use by the US Air Force move at the speed of over Mach 2, propelled by a smokeless and solid-propellant rocket motor.

The US Air Force introduced High Speed Anti-Radiation Missiles (HARM) on the F-4G Wild Weasel and later on specialised F-16s equipped with the HARM Targeting System (HTS).

Other projects being undertaken on priority basis by the DRDO are Long Range Air-to-Air Missile and Short Range Surface-to-Air Missile.

The flight test and production clearance of Medium Range Surface-to-Air Missiles is also on the cards.


The DRDO is also planning guided flight of Astra Missile from ground and air in the near future.

Operationalisation of the third regiment of BrahMos missile for Army, its integration with Su-30 MKI as also underwater trials from pontoon are also on the priority list.

DRDO is also working on early static validation trials of Pinaka MK-II rocket, with an extended range of 60 kms, along with user trials of its warhead.

The present range of the Pinaka rocket, launched in clusters of 12 from indigenously-built multi-barrel launcher, is 39-40 km in 40 seconds with 1.2 tons of high explosives.

Fitted with a variety of warheads like anti-tank mines and blast-cum-pre-fragmented high explosives, Pinaka can destroy an area of 350 sq kms.

Army has already raised two regiments of Pinaka and more are planned.


Flight trial of 'Prahar' missile as tactical battlefield surface-to-surface weapon system is also in the pipeline.


India developing radar-destroying Anti-Radiation Missile - India - DNA
 
.
India developing radar-destroying Anti-Radiation Missile

After the success of Agni-V project, India is developing an Anti-Radiation Missile (ARM) which can hugely multiply the strike capabilities by destroying the enemy's advance warning system.

Production of the ARM, which are among the most advanced missiles, is being undertaken on priority basis by the Defence Research and Development Laboratory (DRDL), which specialises in the missile development.

Such missiles can be mounted on Sukhoi fighter planes Su-30 MKI, 140 of which have already been acquired by India from Russia and around 100 more are expected to be delivered in due course of time.

These missile can detect a radar by tracking its electro-magnetic radiation and pulses generated, an official told PTI, adding these would be independent of the radar wavelength and be able to destroy it.

Such missiles, currently in use of some major powers like the US, can detect and attack a radar antenna or transmitter with minimal aircrew input.

The proportional guidance system that homes in on enemy radar emissions has a fixed antenna and seeker head in the missile's nose.

The Anti-Radiation Missiles in use by the US Air Force move at the speed of over Mach 2, propelled by a smokeless and solid-propellant rocket motor.

The US Air Force introduced High Speed Anti-Radiation Missiles (HARM) on the F-4G Wild Weasel and later on specialised F-16s equipped with the HARM Targeting System (HTS).

Other projects being undertaken on priority basis by the DRDO are Long Range Air-to-Air Missile and Short Range Surface-to-Air Missile.

The flight test and production clearance of Medium Range Surface-to-Air Missiles is also on the cards.


The DRDO is also planning guided flight of Astra Missile from ground and air in the near future.

Operationalisation of the third regiment of BrahMos missile for Army, its integration with Su-30 MKI as also underwater trials from pontoon are also on the priority list.

DRDO is also working on early static validation trials of Pinaka MK-II rocket, with an extended range of 60 kms, along with user trials of its warhead.

The present range of the Pinaka rocket, launched in clusters of 12 from indigenously-built multi-barrel launcher, is 39-40 km in 40 seconds with 1.2 tons of high explosives.

Fitted with a variety of warheads like anti-tank mines and blast-cum-pre-fragmented high explosives, Pinaka can destroy an area of 350 sq kms.

Army has already raised two regiments of Pinaka and more are planned.


Flight trial of 'Prahar' missile as tactical battlefield surface-to-surface weapon system is also in the pipeline.


http://www.dnaindia.com/india/repor...dar-destroying-anti-radiation-missile_1682188
 
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At last.....This was long awaited...

BTW Long range Air-Air missile might be the next version of Astra. i.e. Astra-II...
 
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