Integrated Guided Missile Development Programme: Difference between revisions

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The Integrated Guided Missile Development Program (IGMDP) was an Indian Ministry of Defence program between the early 1980s and 2007 for the development of a comprehensive range of missiles, including the intermediate range Agni missile (Surface to Surface), and short range missiles such as the Prithvi ballistic missile (Surface to Surface), Akash missile (Surface to Air), Trishul missile (Surface to Air) and Nag Missile (Anti Tank). The program was managed by Defense Research and Development Organization (DRDO) in partnership with other Indian government labs and research centres. One of the most prominent chief engineers on the project, Dr. Abdul Kalam went on to become the President of India.^[1]

The project was started in early 1980s and resulted in the development of several key strategic missiles. The last major missile developed under the program was Agni 3 intermediate-range ballistic missile which was successfully tested on 9 July 2007.^[2] On 8 January 2008, and after the third test of Agni-3 on 7 May 2008, the DRDO announced that it will be closing the IGMDP program formally since most of the missiles in the program have been developed and inducted into Indian armed forces.^[3] According to a statement by Dr. S Prahlada, a DRDO Director, new missile and weapons systems will be developed in new five-year programs and include both Indian private industries as well as foreign partners to lower costs. DRDO has independently continued further development work on Nag and Surya missile.^[4] In addition, the DRDO is also developing a laser-based weapon system as part of its ballistic missile defense program to intercept and destroy missiles soon after they are launched towards the country.^[5]

In 2008, India noted that the strategic integrated guided missile program was completed with its design objectives achieved. Follow on strategic projects are being either pursued singly (e.g. Agni project) whereas tactical systems could involve joint ventures with even foreign partners.^[6]

The use of rockets and missiles by Indians in modern times dates back to the 18th century, during the period of ruler Hyder Ali and Tipu Sultan. Fighting the British East India company, Tipu Sultan's Army used variety of rockets in supporting role (see Tipu Sultan). It was the world's first use of rockets for fighting modern wars which was later developed further by the British against French.^[7] In the Second Anglo-Mysore war, at the Battle of Pollilur (10 September 1780), an entire British detachment lead by Colonel Baillie was destroyed resulting in 3,820 soldiers being taken prisoner including Colonel Baillie. At the Battle of Srirangapattana in 1792, Mysorean soldiers launched a barrage of rockets against British troops, followed by an assault of 36,000 men. Later at the battle of Srirangapattana during the fourth Anglo-Mysore war, in April 1799, British forces retreated from the battlefield when attacked by rockets and musket fire of Tipu Sultan's army.^[8]

Tipu's rockets had been fully integrated into his Army, which were under special Rocket Brigades called Kushoons. These were extremely effective in battle, inflicting losses on British forces. These rockets were later re-engineered by William Congreve and known in Britain as Congreve Rockets.

hi to all people.

The Agni missile (from Sanskrit अग्नि Agnī "Fire", one of the 5 elements of nature) is an IRBM developed under the IGMDP by India. It was first tested at the Interim Test Range in Chandipur in 1989, and is capable of carrying a conventional payload of 1000 kg (2,200 lb) or a nuclear warhead. It consists of one (short range) or two stages (intermediate range). It is rail and road mobile. It is powered by solid and/or liquid propellants.

Agni-III is the third in the Agni series of missiles. The Agni I has a range of 700–800 km while the Agni-II as a range of 2,000–2,500 km. They are claimed to be a part of the "credible deterrence" against Pakistan and China. The Agni-II can only reach some parts of western China and Asia. The last test (Agni-II) took place in May 2009.^[9]

Agni III is expected to be India's nuclear deterrent against People's Republic of China. Agni III development began when relations with China were still negative. However, the rapid improvement in friendly relations between the two nations has reduced the need for rapid deployment of the missile. An operational Agni-III was tested on July 9, 2006 from Wheeler island off the coast of the eastern state of Orissa. After the launch, it was reported that the second stage of the rocket had failed to separate and the missile had fallen well short of its target.^[10] It can hit strategic targets deep inside China, including Shanghai and Beijing with a strike range of 3,500 km. It falls short of the range of ICBMs (intercontinental ballistic missiles) which have ranges over 5000 km. As reported earlier, a new type of steel that will help to increase the range from 15 to 30% was developed.^[11] On 12 April 2007 Agni-III missile was tested successfully ^[12] and again on 7 May 2008.^[13]

Agni III the ninth missile in the Agni series to have been tested. The first was tested in May 1989. Agni III has been successfully tested on 7th Feb 2010. The test has met all mission parameters.^[14]

A new Agni-V missile with 5000 km range is being developed. By the legal way it is not a ICBM because ICBM has the range from 5500+ Km.This missile is the modified version of the Agni-III missile with another stage. This missile is called the Agni-III* (Agni-III star).^[15]

The Prithvi missile (from Sanskrit पृथ्वी pṛthvī "Earth") is the tactical surface-to-surface short-range ballistic missile (SRBM) developed by India under the Integrated Guided Missile Development Program. The Prithvi was India's first indigenously developed ballistic missile. Development of the Prithvi began in 1983, and it was first test-fired on February 25, 1988 from Sriharikota, SHAR Centre, Pottisreeramulu Nellore district, Andhra Pradesh. It has a range of up to 150 to 300 km. The land variant is called Prithvi while the naval operational variant of Prithvi I and Prithvi II class missiles are codenamed Dhanush (meaning Bow). Both variants are used for surface targets.

The Prithvi is said to have its propulsion technology derived from the Soviet SA-2 surface-to-air missile.^[16][17] Variants make use of either liquid or both liquid and solid fuels. Developed as a battlefield missile, it could carry a nuclear warhead in its role as a tactical nuclear weapon.

The Prithvi missile project encompassed developing three variants for use by the Indian Army, Indian Air Force and the Indian Navy, outlined in the initial project framework of the IGMDP.^[18]

• Prithvi I - Army Version (150 km range with a payload of 1000 kg)
• Prithvi II - Air Force Version (200 km range with a payload of 500 kg)
• Prithvi III - Naval Version (350 km range with a payload of 500 kg)

Over the years these specifications underwent a number of changes. While the codename Prithvi stands for any missile inducted by India into its armed forces in this category, the later developmental versions Prithvi II and Prithvi III were the codenames used for the Army and Air Force versions, while the versions for the Navy were spun off into separate projects. The Prithvi I class of missiles were inducted into the Indian Army in 1994, while Prithvi II with an extended range was being inducted in 2006.

Prithvi I class was a single stage liquid-fuelled surface-to-surface missile with a maximum warhead payload of 100 kg and a range of 150 km. It has an accuracy of 10 – 50 metres and can be launched from Transporter erector launchers. This class of Prithvi missile was inducted into the Indian Army in 1994.

Prithvi II class is also a single stage liquid-fuelled missile with maximum payload of 300 kg, but with an extended range of 200 kilometres. It was developed with the Indian Air Force being the primary user. It was first test-fired on January 27, 1996 and the development stages were completed in 2004. The Prithvi II class of missiles are in the process of induction by the Indian Airforce.^[19] It has been tested again on 12 Oct 2009 as part of User trials. ^[20]

Prithvi III class was spun off as Sagarika (Sanskrit: सागिरका meaning Oceanic).^[21] This is a two-stage surface-to-surface missile for launch from naval ships and submarines. The first stage is solid fuelled with a 16 metric ton force (157 kN) thrust motor. The second stage is liquid fuelled. The missile can carry a payload of 350 kg to a distance of 300 km and a 500 kg warhead.

There were a number of shortcoming in the initial version of Prithvi missiles namely, High circular error probability (CEP) of around 500 meters and volatility of the liquid-fuelled propulsion system requiring fuelling only just before launching. These shortcomings were overcome in the later developmental versions through improved navigation systems into the missiles to reduce the CEP to as low as 10 to 15 meters. Later Prithvi versions can be kept up to 10 years after fuelling.^[22]

The Dhanush is a Naval variant of the Prithvi short-range ballistic missile intended for launch from surface ships. The development phase included the launch of three developmental Dhanush missiles. The fourth launch was carried out successfully on March 30, 2007, with the ballistic missile performing as expected. The Indian Navy is pursuing the Dhanush as a high precision strike weapon capable of striking both sea and shore based targets to be deployed on its surface ships.The Defense Ministry is planning to make variants of Dhanush with strike ranges 250–500 km and payload up to 750 kg.The 500 km variant will have reduced payload to extend range.

Defence Ministry officials have said that the 8.53 metre-long and 0.9 meter wide Dhanush, with a strike range of 350 km and payload capacity of 500 kg, would "soon be operationalised" in the Navy. "the telemetry and tracking network have established that the technology demonstrator (missile) met its entire mission objective,". "the missile was launched from the warship near balasore off the orissa coast," . scientists and naval officers tracked the missile right from its take off till the impact point at sea. the missile, indigenously developed by the Defence Research and Development Organisation (DRDO) for the navy, was launched for the first time on April 11, 2000. the launch was the second in a series of flight tests aimed to gauge the missile's parameters. On December 13, 2009 Dhanush was re-tested by launching it from INS Subhadra.The test was hailed as a complete success.^{[23] [24] [25][26]}

The Prithvi Air Defense missile has been named as Pradyumna Ballistic Missile Interceptor.It has an maximum interception altitude of 80 km and is capable of engaging the 300 to 2,000 km class of ballistic missiles at a speed of Mach 5.^[27][28] DRDO is currently working on an missile for intercepting targets of 5000+ km range and engaging them at altitudes of up to 150 km.The tests are expected to commence from 2010-11.^[29]

Akash (Sanskrit: आकाश meaning Sky) is a medium range surface-to-air missile developed as part of India's Integrated Guided Missile Development Program to achieve self-sufficiency in the area of surface-to-air missiles. It is the most expensive missile project ever undertaken by the Union government in the 20th century. Development costs skyrocketed to almost US$120 million which is far more than other similar systems.^[30]

Akash is a medium-range surface-to-air missile with an intercept range of 30 km. It has a launch weight of 720 kg, a diameter of 35 cm and a length of 5.8 metres. Akash flies at supersonic speed, reaching around Mach 2.5. It can reach an altitude of 18 km. A digital proximity fuse is coupled with a 55 kg pre-fragmented warhead, while the safety arming and detonation mechanism enables a controlled detonation sequence. A self-destruct device is also integrated. It is propelled by a solid fuelled booster stage. The missile has a terminal guidance system capable of working through electronic countermeasures. The entire Akash SAM system allows for attacking multiple targets (up to 4 per Battery). The Akash missile's use of ramjet propulsion system allows it to maintain its speed without deceleration, unlike the Patriot missiles.^[31] The missile is supported by a multi-target and multi-function phased array fire control radar called the 'Rajendra' with a range of about 80 km in search, and 60 km in terms of engagement.^[32]

The missile is completely guided by the Radar, without any active guidance of its own. This allows it greater capability against jamming as the aircraft self protection jammer would have to work against the high power Rajendra, and the aircraft being attacked is not alerted by any terminal seeker on the Akash itself.

Design of the missile is similar to that of the SA-6 with four long tube ramjet inlet ducts mounted mid-body between wings. For pitch/yaw control four clipped triangular moving wings are mounted on mid-body. For roll control four inline clipped delta fins with ailerons are mounted before the tail. However, internal schema shows a completely modernised layout, including an Onboard computer with special optimized trajectories, and an all digital Proximity fuse.

The Akash system meant for the Army uses the T-72 tank chassis for its launcher and radar vehicles. The Rajendra derivative for the Army is called the Battery Level Radar-III. The Air Force version uses an Ashok Leyland truck platform to tow the missile launcher, while the Radar is on a BMP-2 chassis and is called the Battery Level Radar-II. In either case, the launchers carry three ready-to-fire Akash missiles each. The launchers are automated, autonomous and networked to a command post and the guidance radar. They are slewable in azimuth and elevation. The Akash system can be deployed by rail, road or air.

The first test flight of Akash missile was conducted in 1990, with development flights up to March 1997.

The IAF has initiated the process to induct the Akash and Trishul surface-to-air missiles developed as a part of the Integrated Guided Missile Development Program. The Multiple target handling capability of Akash weapon system was demonstrated by live firing in a C4I environment during the trials. Two Akash missiles intercepted two fast moving targets in simultaneous engagement mode in 2005 itself. The Akash System's 3-D central acquisition radar (3-D car) group mode performance was then fully established.^[33][34]

In December,2007 Indian Air Force completed user trials for the Akash missile system. The trials, which were spread over ten days were successful and the missile hit its target on all five occasions. Before the ten day trial at Chandipur, the Akash system's ECCM Evaluation tests were carried out at Gwalior Air force base while mobility trials for the system vehicles were carried out at Pokhran. The IAF had evolved the user Trial Directive to verify the Akash's consistency in engaging targets. The following trials were conducted: Against low flying near range target, long range high altitude target, crossing and approaching target and ripple firing of two missiles from the same launcher against a low altitude receding target.^[35] Following this, the IAF declared that it would initiate the induction of 2 squadrons strength (each squadron with 2 batteries) of this missile system, to begin with. Once deliveries are complete, further orders would be placed to replace retiring SA-3 GOA (Pechora) SAM systems.^[36][37] In February 2010, the Indian Air Force ordered six more squadrons of the Akash system, taking orders to eight of the type. The Indian Army is also expected to order the Akash system.

Official website for Akash SAM www.akashsam.com

Trishul (Sanskrit त्रिशूल meaning trident) is the name of a short range surface-to-air missile developed by India as a part of the Integrated Guided Missile Development Program. It has a range of 9 km and is fitted with a 5.5 kg warhead. Designed to be used against low-level (sea skimming) targets at short range, the system has been developed to defend naval vessels against missiles and also as a short range surface to air missile on land. Guidance consists of three different guiding beams, with the guidance handed over progressively to a narrower beam as the missile approaches the target.

According to reports, the range of the missile is 12 km and is fitted with a 15 kg warhead. The weight of the missile is 130 kg. The length of the missile is 3.1 m.^[38]

Development costs of the missile touched almost US$70 million to the taxpayers.India had Officially shut down Trishul Missile project on February 27, 2008.^[30] The programme of surface-to-air Trishul missile, one of the five missiles being developed by Defense Research and Development Organization, is being shelved. Defence Minister George Fernandes indicated in Rajya Sabha when he said Trishul missile had been delinked from user service, though it would be continued as a technology demonstrator.^[39]

Nag (Sanskrit: नाग meaning cobra) is India's third generation "Fire-and-forget" anti-tank missile. It is an all weather, top attack missile with a range of 3 to 7 km.

The missile uses an 8 kg tandem HEAT warhead capable of defeating modern armour including ERA (Explosive Reactive Armour) and composite armour. Nag uses Imaging Infra-Red (IIR) guidance with day and night capability. Mode of launch for the IIR seeker is LOBL (Lock On Before Launch). Nag can be mounted on an infantry vehicle; a helicopter launched version will also be available with integration work being carried out with the HAL Dhruv.

Separate versions for the Army and the Air Force are being developed. For the Army, the missiles will be carried by specialist carrier vehicles (NAMICA-Nag Missile Carrier) equipped with a thermal imager for target acquisition. NAMICA is a modified BMP-1 ICV licence produced as "Sarath" in India. The carriers are capable of carrying four ready-to-fire missiles in the observation/launch platform which can be elevated with more missiles available for reload within the carrier. For the Air Force, a nose-mounted thermal imaging system has been developed for guiding the missile's trajectory. The missile has a complete fiberglass structure and weighs around 42 kg.

Nag was test fired for the 45th time on March 19, 2005 from the Test Range at Ahmednagar (Maharastra), signalling the completion of the developmental phase. It will now enter production phase, subject to user trials and acceptance by the Indian Army.

Further versions of the missile may make use of an all-weather Milli Metric Wave (MMW) seeker as an additional option. This seeker has reportedly been developed and efforts are on to integrate it into the missile.

Total length: 1.90 m (6.23 ft)
Diameter: 190 mm (7.5 in)
Wingspan: -
Weight: 42 kg (93 lb)
Warhead Weight: 8 kg (17.6 lb)
Propellant: Tandem Propulsion solid (Nitramine based smokeless extruded double band sustainer propellant)
Maximum effective range: 4 km (Guidance mode: IIR (Imaging infra-red)), 7 km for air-launched variant
Attack Mode: Lock-on-before-Launch - Top attack
Seeker: IIR cadmium zinc telluride
Single-shot hit probability: 0.77
CEP: 0.9 m R.S

The Shaurya missile is a short-range surface-to-surface ballistic missile developed by DRDO for use by the Indian Army. Capable of hypersonic speeds, it has a range of 600 km and is capable of carrying a payload of one-tonne conventional or nuclear warhead. It can hit targets deep inside Pakistan and China,both nations having unsettled disputes with India.^[40] The Shaurya missile provides India with a significant second strike capability.^[41] The missile was tested in November 2008

Shaurya missile is a land version of the under-water launched K-15 missile, Sagarika (missile).^[42][43] This missile is stored in a composite canister just like the BrahMos supersonic cruise missile. The composite canister makes the missile much easier to store for long periods without maintenance as well as to handle and transport. It also houses the gas generator to eject the missile from the canister before its solid propellant motors take over to hurl it at the intended target. Shaurya missiles can remain hidden or camouflaged in underground silos from enemy surveillance or satellites till they are fired from the special storage-cum-launch canisters. DRDO Defence scientists admit that given Shaurya's limited range at present, either the silos will have to be constructed closer to India's borders or longer-range canisterised missiles will have to be developed.The Shaurya system will require some more tests before it becomes fully operational in two-three years. Moreover, defence scientists say the high-speed, two-stage Shaurya has high manoeuvrability which also makes it less vulnerable to existing anti-missile defence systems.^[44]

The expertise and technology developed through the IGMDP is also used in the new Anti ballistic missile called the Exoatmospheric interceptor system which successfully intercepted a Prithvi-II ballistic missile.^[45]

To date, the United States, Russia and China have some of the largest long-range missiles that, on record, can reach distances between 11,500 and 13,000 kilometers (between 7,145 and 8,077 miles).^[46]

India became the fourth nation in the world to acquire such a capability and the third nation to develop it through indigenous effort. In December 2007, India successfully tested the Endoatmospheric version which destroyed a modified Prithvi-II missile at 15 km altitude with text-book perfection thereby completing what is known as Multi-layered Theatrical Wide-area Air Defence system that can successfully target and destroy all kinds of Aerial threats from low flying cruise missiles, supersonic short-range, intermediate-range and intercontinental ballistic missiles at altitudes of 15 to 50+ km at any angle and azimuth.

India is said to be in the intermediate stages of developing a new cruise missile, Nirbhay (Sanskrit: निर्भय meaning fearless). The subsonic Nirbhay is said to be 6 m in length with a 520 mm diameter, weigh 1,000 kg and have a 1,000 km range with a speed of 0.7 mach. The technology demonstrator flight is planned for end-2009.^[47]

So far in the case of ABM system there has been three successful tests. This can lead to the possibility of an antimissile shield system.After the third test in early 2009, it was concluded that one or two more anti ballistic missile tests were needed after which operationlization could take another 4 years.

In September 2008, Indian scientists developed a path-breaking technology that has the potential to increase the range of missiles and satellite launch vehicles by at least 40%.The enhanced range is made possible by adding a special-purpose coating of chromium metal to the blunt nose cone of missiles and launch vehicles. This would add-up on the stated range.

• Akash SAM Official website
• Bharat Rakshak's page
• Bharat Rakshak's page of Akash
• Bharat Rakshak's page on Trishul
• Trishul Test Fired
• Nag Missile
• Missile Chronology 2004-present
• Next objective: a 5,000-km Agni
• Astra missile to be fitted on Su-30MKI
• Sagarika_Dhanush
• Bharat 2020
• Pradyumna

• News about defense 1
• News about defense 2
• AAD missile video

• Rajendra Radar
• SA-6 Gainful
• Agni missile system
• Brahmos
• Sagarika
• List of missiles