Army opts for Nag missile as it enters final trials

[marcos98]

Monday, 8 March 2010
Army opts for Nag missile as it enters final trials
Broadsword: Army opts for Nag missile as it enters final trials

In Rajasthan, this May, the indigenously developed Nag (Cobra) missile will undergo a final round of trials before entering service in the Indian Army’s arsenal. Developed by the Defence R&D Laboratory (DRDL) in Hyderabad, the army is delighted with how the Nag has performed in a series of earlier trials. A senior army officer calls it, “the world’s deadliest anti-tank guided missile (ATGM).

Indian infantry formations urgently want a potent ATGM to handle Pakistani tank forces that now bristle with capable Ukrainian T-80 and Chinese T-85 tanks.

So confident is the army about the Nag that, even before trails are completed, it has budgeted Rs 335 crores for buying 443 Nag missiles, which will be manufactured at the public sector Bharat Dynamics Limited. The missiles will equip Reconnaissance and Support Battalions, mechanised units that locate and destroy enemy tanks.

In trials last summer six Nag missiles were fired at tanks 3-4 km away; each of them hit their target precisely. Next month the Nag must demonstrate its capability at its minimum range of 500 metres.

“Since the Nag travels at 230 metres per second, it has just 2 seconds to align itself to a target that is 500 metres away. But we are confident that the Nag will meet this requirement during the forthcoming trials”, the DRDL’s Officiating Director, Amal Chakrabarti, told Business Standard during a visit to the Hyderabad missile complex.

The Nag is a third-generation (Gen-3), “fire-and-forget” missile; once it is fired, its seeker automatically guides the missile to even a fast-moving tank. In earlier-generation missiles an operator had to guide it all the way, often exposing himself to enemy fire. The world has just a handful of “fire-and-forget” missiles, such as the American Javelin, and the Israeli Spike. The Javelin and the Spike are lighter missiles that can be carried by a soldier; the Nag is a heavier and more powerful missile designed to operate from vehicles and helicopters.

While the infrared seekers of the Javelin and the Spike can be jammed, the Nag’s optical guidance system makes it virtually jam-proof. The indigenous development of an imaging seeker, a highly complex and closely guarded technology, is the Nag’s greatest triumph.

Here’s how it works. Nag missile operators search for enemy tanks through thermal imaging telescopes, which see as well by night as they do by day. Picking up a tank, the operator locks the Nag’s seeker onto the target. A digital snapshot of the target is automatically taken, which serves as a reference image. As the Nag streaks towards the target, at 230 metres per second, the seeker takes repeated snapshots of the target; each one is compared with the reference image, and deviations are translated through on-board algorithms into corrections to the Nag’s control fins, which steer the missile precisely at the target.

This method of firing is termed “lock-on before launch” or LOBL. In the pipeline is an even more sophisticated method --- “lock-on after launch” or LOAL --- for the helicopter-mounted Nag, or HELINA, which can target a tank 7 kilometres away. Since the target will seldom be visible at such a distance, the missile operator launches the HELINA in the general direction of the target. As it flies towards the target, the Nag’s seeker downlinks to the missile operator images of the area ahead; after travelling 3-4 kilometers, i.e. after about 12-16 seconds, the operator will be able to identify enemy tanks. He will lock the seeker onto the tank he wishes to destroy, and the command will be uplinked to the missile in mid-flight. After that, the missile homes in onto the target and destroys it.

The Nag provides its operator with another important tactical advantage. The plume of burning propellant from the tail of most missiles gives away its flight path and allows the target to get behind cover. The Nag, in contrast, is visible only during the first one second of flight, when the missile’s booster imparts 90% of the momentum; after that, a sustainer maintains the missile’s speed, burning a smokeless propellant that is practically invisible.

Acceptance of the Nag missile into service will be a triumphant conclusion to the Defence R&D Organisation’s (DRDO’s) long-delayed, but eventually successful, Integrated Guided Missile Development Programme (IGMDP). Initiated in 1983 by then DRDO boss, Dr APJ Abdul Kalam, the IGMDP set out to develop five missiles: the Agni and Prithvi ballistic missiles; the Akash and Trishul anti-aircraft missiles; and the Nag ATGM. Only the Trishul will have failed to be accepted into service.

 

[KEETARP]

Monday, 8 March 2010
Army opts for Nag missile as it enters final trials
Broadsword: Army opts for Nag missile as it enters final trials

In Rajasthan, this May, the indigenously developed Nag (Cobra) missile will undergo a final round of trials before entering service in the Indian Army’s arsenal. Developed by the Defence R&D Laboratory (DRDL) in Hyderabad, the army is delighted with how the Nag has performed in a series of earlier trials. A senior army officer calls it, “the world’s deadliest anti-tank guided missile (ATGM).

Indian infantry formations urgently want a potent ATGM to handle Pakistani tank forces that now bristle with capable Ukrainian T-80 and Chinese T-85 tanks.

So confident is the army about the Nag that, even before trails are completed, it has budgeted Rs 335 crores for buying 443 Nag missiles, which will be manufactured at the public sector Bharat Dynamics Limited. The missiles will equip Reconnaissance and Support Battalions, mechanised units that locate and destroy enemy tanks.

In trials last summer six Nag missiles were fired at tanks 3-4 km away; each of them hit their target precisely. Next month the Nag must demonstrate its capability at its minimum range of 500 metres.

“Since the Nag travels at 230 metres per second, it has just 2 seconds to align itself to a target that is 500 metres away. But we are confident that the Nag will meet this requirement during the forthcoming trials”, the DRDL’s Officiating Director, Amal Chakrabarti, told Business Standard during a visit to the Hyderabad missile complex.

The Nag is a third-generation (Gen-3), “fire-and-forget” missile; once it is fired, its seeker automatically guides the missile to even a fast-moving tank. In earlier-generation missiles an operator had to guide it all the way, often exposing himself to enemy fire. The world has just a handful of “fire-and-forget” missiles, such as the American Javelin, and the Israeli Spike. The Javelin and the Spike are lighter missiles that can be carried by a soldier; the Nag is a heavier and more powerful missile designed to operate from vehicles and helicopters.

While the infrared seekers of the Javelin and the Spike can be jammed, the Nag’s optical guidance system makes it virtually jam-proof. The indigenous development of an imaging seeker, a highly complex and closely guarded technology, is the Nag’s greatest triumph.

Here’s how it works. Nag missile operators search for enemy tanks through thermal imaging telescopes, which see as well by night as they do by day. Picking up a tank, the operator locks the Nag’s seeker onto the target. A digital snapshot of the target is automatically taken, which serves as a reference image. As the Nag streaks towards the target, at 230 metres per second, the seeker takes repeated snapshots of the target; each one is compared with the reference image, and deviations are translated through on-board algorithms into corrections to the Nag’s control fins, which steer the missile precisely at the target.

This method of firing is termed “lock-on before launch” or LOBL. In the pipeline is an even more sophisticated method --- “lock-on after launch” or LOAL --- for the helicopter-mounted Nag, or HELINA, which can target a tank 7 kilometres away. Since the target will seldom be visible at such a distance, the missile operator launches the HELINA in the general direction of the target. As it flies towards the target, the Nag’s seeker downlinks to the missile operator images of the area ahead; after travelling 3-4 kilometers, i.e. after about 12-16 seconds, the operator will be able to identify enemy tanks. He will lock the seeker onto the tank he wishes to destroy, and the command will be uplinked to the missile in mid-flight. After that, the missile homes in onto the target and destroys it.

The Nag provides its operator with another important tactical advantage. The plume of burning propellant from the tail of most missiles gives away its flight path and allows the target to get behind cover. The Nag, in contrast, is visible only during the first one second of flight, when the missile’s booster imparts 90% of the momentum; after that, a sustainer maintains the missile’s speed, burning a smokeless propellant that is practically invisible.

Acceptance of the Nag missile into service will be a triumphant conclusion to the Defence R&D Organisation’s (DRDO’s) long-delayed, but eventually successful, Integrated Guided Missile Development Programme (IGMDP). Initiated in 1983 by then DRDO boss, Dr APJ Abdul Kalam, the IGMDP set out to develop five missiles: the Agni and Prithvi ballistic missiles; the Akash and Trishul anti-aircraft missiles; and the Nag ATGM. Only the Trishul will have failed to be accepted into service.

Thnx Marcos - Just rt start for day before going for Duty .

Just a query though - Why was then so much fuss about Javelin in DEFEXPO and interest of Indian Army in that.

 

[Chanakyaa]

I think this is the year for drdo.
Agni, akash and nag being inducted only astra remains which already showed good results.

 

[jagjitnatt]

Nag indeed is a great achievement for us. Its got good range, good accuracy, fast response, cost effective and comparable to the best in the world. Its being exported to Morocco, Tanzania and Botswana. Soon it shall be inducted into Indian army.

DRDO is expecting to get some export orders after its induction from other countries as well.

 

[jha]

Thnx Marcos - Just rt start for day before going for Duty .

Just a query though - Why was then so much fuss about Javelin in DEFEXPO and interest of Indian Army in that.

interest was there because they both are from diff. class....may be army wants to have both of them..

 

[Cityboy]

great..hey I heard that NAG is Anti-reactive armer[shield on tank] missile also..can any body give more info?

 

[Tejas-MkII]

interest was there because they both are from diff. class....may be army wants to have both of them..

yes they are from different class .... javeline can be shoulder fire ATGM and NAG is only fire from vehicle.. both have their advantage and disadv...

just imagine a Tank regiment of Arjun with a battalion of soldier(F-INSAS), one AKASH sqd and one NAG sqd, also getting supp from LCH , definitely an invincible force in thar desert....

 

[anathema]

Nag indeed is a great achievement for us. Its got good range, good accuracy, fast response, cost effective and comparable to the best in the world. Its being exported to Morocco, Tanzania and Botswana. Soon it shall be inducted into Indian army.

DRDO is expecting to get some export orders after its induction from other countries as well.

exported ?? when did that happen ? also the seeker was an imported one , did we make our own seeker ?

 

[Trichy]

Thnx Marcos - Just rt start for day before going for Duty .

Just a query though - Why was then so much fuss about Javelin in DEFEXPO and interest of Indian Army in that.

Javelin is a Shoulder armed Missile(Light weight/Portable)

Nag is a vehicle mounted system(Heavy Weight/Non-Portable)

we can not go every ware with a mounted system, we need portable also

 

[manglasiva]

Is this seeker mechanism really better than US Javelin or IS spike ? Welcoming expert comments

 

[su-47]

great..hey I heard that NAG is Anti-reactive armer[shield on tank] missile also..can any body give more info?

NAG is a top-attack missile. It attacks the vulnerable top part of the tank, which is often least armoured. So it basically bypasses all the Explosive Reactive Armour (ERA) on tanks.

I was wondering...can Nag be integrated into a tank, as in make it a barrel launched ATGM? Like the Israeli LAHAT? That would increase its usefulness

 

[DMLA]

Is this seeker mechanism really better than US Javelin or IS spike ? Welcoming expert comments

The seeker mechanism is the same for the three missiles in question. In case of IIR used, it depends on the total number of detector elements which form a part of the seeker and the design of FPA. I am not aware of Nag's seeker but I doubt it would be better than the latest variants of any missiles from other countries.

Nag uses a imaging infrared seeker with an optical locator. However it is believed that IIR seekers can have issues in certain environmental conditions. Before the missile launch, lock is established by switching on the missile seeker and is focused on the target for track.

Most man portable anti tank systems also involve IIR seeker. This includes Javelin as well as Spike LR.

Just to expand on the above......

Guidance techniques for modern anti tank missiles include Semi active laser homing or use of mmw seekers apart from IIR seekers. Also, if the launch platform can provide targetting information (such as AN/APG-78Longbow FCR), we can have RF seekers. Hellfire uses SALH or RF seekers. DRDO has been working on a mmw seeker in order to tide over the shortcomings of IIR seekers.

A major drawback of the IIR system is the reliance on a thermal view to acquire targets. The thermal views are not able to operate until the refrigeration component has cooled the system. Depending on ambient temperature, this can vary from 30 seconds to 1 minute. Another drawback is known to be the reduced effectiveness in certain weather conditions.

The best way ofcourse is to have multiple (Active + Passive) seekers for the missile. This increases the Pk by a big margin.

Added later: wrt mmw seeker use, the best example is the Brimstone. From wiki:

The missile's advanced sensor package includes its millimetric wave radar (MMW), which allows the weapon to image the target, thus finding the most effective location on the target to impact. The bandwidth of the MMW radar also makes it less susceptible to inclement weath unlike IIR seekers

 

[illuminatidinesh]

IA is planning to have both i think..... Konkars are being phased out .... So they r hoping to get the javelin. I think it does the job. Nag is another category ..... The best is that both r fire and forget system.