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India's MIRVed ICBM : Agni VI

Chanakyaa

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India boasts of an excellent non-proliferation record and that it has engaged intermittently with the international community on such issues, the US had openly endorsed India's ICBM development ambitions since it stood in dark contrast to states racing to acquire advanced ballistic missile technologies harmful to US interests. The lack of US condemnation of India's missile test demonstrates that the US is comfortable with the Indian program in the nuclear and missile fields and appreciates India's need to meet the emerging strategic challenge posed by rising China. Besides, it is also entirely imperative that India breaks away out of the regional context as the country's sphere of influence is growing and it needs the capability to match its sphere of global influence.

The Government of India had not considered the development of an ICBM with a range of 10,000 km or more. However, speculations of an ongoing program for a longer range ICBM resurfaced in 2011. Some reports since the late 1990s claimed that the ICBM is already code named "Surya". It is also known that the government had not given serious weight to the necessity for an ICBM. Since India is not a signatory to the Missile Technology Control Regime (MTCR), the Indian missile program is not limited by any treaty commitment to cap the development of long range ICBM. There have been also occasional hypothesis that, despite India being a non-signatory to MTCR, there is a voluntary moratorium on developing missiles beyond the range of 5,000 km probably owing to US & NATO pressure.

The important AGNI-VI Intercontinental Ballistic Missile (ICBM) which is expected to feature Multiple Independent Re-entry Vehicles (MIRV) capabilities has not been approved by the government. The scams & policy paralysis stricken erstwhileUPA government dillydallied its approval which was one among the many it procrastinated when it came to projects of national security & importance.

Despite this impediment DRDO has decided on the missile specifications and enhanced capabilities and proceeding as per plan, once the ongoing Agni-V program concludes DRDO is confident that the present dispensation will sanction the program and allocate funds. In addition, there has been considerable speculation worldwide about this futuristic cutting-edge missile development program after the clinical success of the AGNI-V.

Agni-VI will be a three-stage, solid fuel ICBM which will carry a massive three-tonne warhead, thrice the weight of current Agni missiles have carried so far. This will enable the missile to launch multiple nuclear warheads with each warhead striking a different target alternatively, separated by hundreds of kilometers, two or more warheads can be assigned to one target and can perform evasive maneuvers while hurtling down towards its target, confusing enemy air defence systems that will try to intercept them mid-air. MIRVs ensure a credible second strike capability even with few missiles.


DRDO technicians in Hyderabad integrating AGNI Missiles

Technological Challenges

Multiple Warhead Technology

DRDO is at an advanced stage of integrating warhead technologies, but one notable challenge is building a booster rocket that can propel a three-tonne payload to targets more than 6,000 kilometres away. The payload weight is comparably more than what a GSLV can launch. The missile should also be able to deploy decoys and chaffs to evade air defense systems.

Weapons Delivery

Analyzing a ballistic trajectory is a simple physics problem, but there is big difference betweem analysis and implementation. Recording the necessary data, rapidly analyzing it, combined with ever changing variables, to determine the precise moment to release a warhead so that it hits a specific target 6-7 thousand kilometers away, is not a simple task. Therefore, dispersing nuclear warheads is another major technological challenge.

Miniaturization

Miniaturization of nuclear and thermonuclear weapons as has been obtained to fit the nose cone spatial shape of Agni-VI missile.

Support Structures

The building blocks from boosters to radars, seekers and sophisticated mission control centers are currently available. DRDO had been able to develop key Radio Frequency seeker technologies for missiles, it has since indigenously perfected this technology, and digital processing during the missile's boost, mid-course and terminal phase is based on DRDO’s own software.

Mobility

Agni-VI must be compact and road mobile, this can be achieved by building the first stage with composites , which is expected to weigh around 40-tons. This is a technical challenge but DRDO has the capability in lightweight composites. The road mobile Agni-VI would also have stringent limits on its length since it must be carried on a standard size trailer that can move from one part of the country to another, turn on narrow roads, cross bridges and climb heights. As the payload weight increases, it will require more advanced technologies to keep the missile's length to technically acceptable limits.

Weight & Dimension

Harnessing maximum performance from smaller rockets also becomes especially important in submarine launched ballistic missiles (SLBMs) version, which cannot be no longer than 13 metres so as to fit into the cramped confines of a submarine. This holds true to even the K-4 "Sagarika" SLBM for the country's Arihant-Class, Chakra-Class Nuclear-Propelled ballistic missile attack submarines (SSBNs).

Conclusion

Until April 2012, the existence of an ICBM program was unclear and was never officially acknowledged by the DRDO. However, in the DRDO newsletter of May 2011, while describing the achievements of a recently promoted scientist, it revealed that he headed a program code named A6, which will be an ICBM with a range in between 6,000-10,000 km and like some versions of its precursor Agni V, it will be capable of underwater launch with MIRV.

“ Chief Controller R&D (Missiles and Strategic Systems)

Shri Avinash Chander, Distinguished Scientist, Programme Director, SFD and Director, Advanced Systems Laboratory has been appointed as Chief Controller R&D (Missiles and Strategic Systems) wef 3 May 2011. He is an eminent scientist in the field of Missiles and is the Chief Designer of Long-range missile system, with specific contribution in Agni programme management, mission design, guidance, navigation, simulation and terminal guidance. He has unique achievement of delivering and deploying three long-range Agni missile weapon systems viz, A1, A2 and A3.

It is evident from history that there exists a close concurrence between a space and a missile program as was the case with both Soviet Union and America, China and India have also pursued the same path. The interchangeability of several technologies between the two entities suit there sustained development, but the more pronounced beneficiary is undeniably the missile programs. Though the Indian missile program has matured to world-class levels it is mastering some of the aforementioned technologies that will make MIRV integration as a holistic system achievable.
 
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Advanced Agni-6 missile with multiple warheads likely by 2017

Ending worldwide speculation about the futuristic Agni-6 missile, the Defence R&D Organisation (DRDO) has briefed Business Standard about the direction of India's ballistic missile development programme after the Agni-5 enters service, probably in 2015.

DRDO chief Dr VK Saraswat, and missile programme chief Dr Avinash Chander, say the Agni-6 project has not been formally sanctioned. However, the missile's specifications and capabilities have been decided and development is proceeding apace. Once the ongoing Agni-5 programme concludes flight-testing, the defence ministry (MoD) will formally okay the Agni-6 programme and allocate funding.

Chander says the Agni-6 will carry a massive three-tonne warhead, thrice the weight of the one-tonne warhead that Agni missiles have carried so far. This will allow each Agni-6 missile to launch several nuclear warheads -Multiple Independently Targetable Re-entry Warheads (MIRVs) - with each warhead striking a different target. Each warhead - called Maneuverable Reentry Vehicle (MARV) - performs evasive maneuvers while hurtling down towards its target, confusing enemy air defence missiles that are trying to destroy them mid-air.

The DRDO is at an advanced stage of developing these warhead technologies. But the difficult challenge is building a booster rocket that can propel a three-tonne payload to targets 5000 kilometres away. This weighs almost as much as the satellite payload carried by the Indian Space Research Organisation's much larger and heavier Global Satellite Launch Vehicle (GSLV).

"Our ballistic missiles must be compact and road mobile, even the Agni-6 with its heavy payload. We will do this by building the first stage with composites, fitting the Agni-6 with India's first composite 40-tonne rocket motor. This is a technical challenge but we have good capability in lightweight composites," says Chander.

The road mobile Agni-6 would also have stringent limits on its length. "It must be carried on a standard size trailer that can move from one part of the country to another, turn on our roads, cross our bridges and climb our heights. As the payload weight increases, we will require more advanced technologies to keep the missile's length constant," explains Chander.

Coaxing higher performance from smaller rockets becomes especially important in submarine launched ballistic missiles (SLBMs), which can be no longer than 13 metres so that they can fit into the cramped confines of a submarine. Even long-range SLBMs that can fly 14,000 kilometres, like the Chinese JL-2, are built no longer than 13 metres. The DRDO faces this challenge as it develops the K-4 SLBM for the country's Arihant-class nuclear-propelled ballistic missile submarines (SSBNs).

Eventually the Agni-6 will be no taller than the Agni-5, i.e. about 17 metres, says Chander. It will, however, be heavier and thicker - slightly over two metres - which will cater for the different shape of the MIRV payload.

"The timeframe for developing a new missile system is about five years and the DRDO has mostly achieved this in the Agni programme," says Chander. Calculating five years from April 2012, when the Agni-5 had its debut launch, the first test of the Agni-6 could happen in 2017.

The DRDO says the Agni-6 will have a longer range than the 5,000-kilometre Agni-5, but is not mentioning figures. "The MARVs and MIRVs will give us extended range. I will not be able to tell you how much because that is secret," Saraswat told Business Standard.

Ballistic calculations, however, suggest that at least some of the MIRV warheads on the Agni-6 would reach at least 6,000 kilometres. In a missile that travels 5,000 kilometres, the last MIRV warhead released flies an extra 1,000 kilometres.

Currently, the DRDO is readying for the second test next month of the Agni-5 Intermediate Range Ballistic Missile. This will be fired in the same configuration as its debut test a year ago, in order to establish the missile's reliability. A third test by end-2013 will see the missile fired from a canister.

"We will conduct at least five-six more Agni-5 tests before the missile enters operational service. After the repeat test this month or the next, we will conduct two test firings from a canister. Then the military units that will operate the Agni-5 will conduct two-three test firings as part of the induction process. Even after induction, the users conduct test firings as part of the Strategic Forces Command training plan," says Avinash Chander.

The Agni-5 is a three-stage, solid-fuel missile but its first stage consists of a metallic rocket motor, while the second and third stages have composite motors.
 
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10000km Missile against whom USA or Russia.....:laugh:

Obviously Not !! But to cover whole ummah from KSA to Turkey which may try to act foolish by replenishing oil and war reserves in event of next Indo-Pak war.

On Topic : From Land version only submarine version will be spinned off later and that will give real headache to China. From the deep depths of Indian Ocean only we would be able to aim for Bejing and further north of it.
 
.
Advanced Agni-6 missile with multiple warheads likely by 2017

Ending worldwide speculation about the futuristic Agni-6 missile, the Defence R&D Organisation (DRDO) has briefed Business Standard about the direction of India's ballistic missile development programme after the Agni-5 enters service, probably in 2015.

DRDO chief Dr VK Saraswat, and missile programme chief Dr Avinash Chander, say the Agni-6 project has not been formally sanctioned. However, the missile's specifications and capabilities have been decided and development is proceeding apace. Once the ongoing Agni-5 programme concludes flight-testing, the defence ministry (MoD) will formally okay the Agni-6 programme and allocate funding.

Chander says the Agni-6 will carry a massive three-tonne warhead, thrice the weight of the one-tonne warhead that Agni missiles have carried so far. This will allow each Agni-6 missile to launch several nuclear warheads -Multiple Independently Targetable Re-entry Warheads (MIRVs) - with each warhead striking a different target. Each warhead - called Maneuverable Reentry Vehicle (MARV) - performs evasive maneuvers while hurtling down towards its target, confusing enemy air defence missiles that are trying to destroy them mid-air.

The DRDO is at an advanced stage of developing these warhead technologies. But the difficult challenge is building a booster rocket that can propel a three-tonne payload to targets 5000 kilometres away. This weighs almost as much as the satellite payload carried by the Indian Space Research Organisation's much larger and heavier Global Satellite Launch Vehicle (GSLV).

"Our ballistic missiles must be compact and road mobile, even the Agni-6 with its heavy payload. We will do this by building the first stage with composites, fitting the Agni-6 with India's first composite 40-tonne rocket motor. This is a technical challenge but we have good capability in lightweight composites," says Chander.

The road mobile Agni-6 would also have stringent limits on its length. "It must be carried on a standard size trailer that can move from one part of the country to another, turn on our roads, cross our bridges and climb our heights. As the payload weight increases, we will require more advanced technologies to keep the missile's length constant," explains Chander.

Coaxing higher performance from smaller rockets becomes especially important in submarine launched ballistic missiles (SLBMs), which can be no longer than 13 metres so that they can fit into the cramped confines of a submarine. Even long-range SLBMs that can fly 14,000 kilometres, like the Chinese JL-2, are built no longer than 13 metres. The DRDO faces this challenge as it develops the K-4 SLBM for the country's Arihant-class nuclear-propelled ballistic missile submarines (SSBNs).

Eventually the Agni-6 will be no taller than the Agni-5, i.e. about 17 metres, says Chander. It will, however, be heavier and thicker - slightly over two metres - which will cater for the different shape of the MIRV payload.

"The timeframe for developing a new missile system is about five years and the DRDO has mostly achieved this in the Agni programme," says Chander. Calculating five years from April 2012, when the Agni-5 had its debut launch, the first test of the Agni-6 could happen in 2017.

The DRDO says the Agni-6 will have a longer range than the 5,000-kilometre Agni-5, but is not mentioning figures. "The MARVs and MIRVs will give us extended range. I will not be able to tell you how much because that is secret," Saraswat told Business Standard.

Ballistic calculations, however, suggest that at least some of the MIRV warheads on the Agni-6 would reach at least 6,000 kilometres. In a missile that travels 5,000 kilometres, the last MIRV warhead released flies an extra 1,000 kilometres.

Currently, the DRDO is readying for the second test next month of the Agni-5 Intermediate Range Ballistic Missile. This will be fired in the same configuration as its debut test a year ago, in order to establish the missile's reliability. A third test by end-2013 will see the missile fired from a canister.

"We will conduct at least five-six more Agni-5 tests before the missile enters operational service. After the repeat test this month or the next, we will conduct two test firings from a canister. Then the military units that will operate the Agni-5 will conduct two-three test firings as part of the induction process. Even after induction, the users conduct test firings as part of the Strategic Forces Command training plan," says Avinash Chander.

The Agni-5 is a three-stage, solid-fuel missile but its first stage consists of a metallic rocket motor, while the second and third stages have composite motors.


Good news and necessary deterrence for our power projections.
 
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Ok... so here we are in 2017... But where is Agni-6? :D
Another false claim by India?
 
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India is developing with lots of universities and industries involved. Unlike yours, where everything comes out of a hanger suddenly and ready for induction after first test.
So which thing is better? The one which is not ready after 100 tests :moil: or the one which is already very very ready? :guns:
 
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So which thing is better? The one which is not ready after 100 tests :moil: or the one which is already very very ready? :guns:

which is ready after 100s of tests. because every country develops weapons like this, every scientific instruments were developed like this.

If all your tests are successes and all the weapons are ready after first test than either these are false claims by your army (just like they did few days before they lost East Pakistan) or you are just painting a Chinese system. USA and Russia had so many failed tests and failed projects that they are countless now. Still they are the most advanced countries.
 
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