Hypersonic Missiles

LETHALFORCE

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http://www.flightglobal.com/article...ns-delayed-scramjet-flight-test-for-2010.html

India plans delayed scramjet flight test for 2010



India's first scramjet technology demonstrator will be flight-tested next year, four years later than planned and having failed to meet two previous targets, by the government-run Defence Research and Development Laboratory in Hyderabad.

The Indian military wants to use scramjet systems for a hypersonic missile. The first demonstrator flight test will be carried out at India's integrated test range on its east coast.

Flight International revealed in 2004 that the country had planned a 2006 scramjet test. When that failed to take place, Israel Aerospace Industries announced in 2007 it was helping India develop the technology for a first flight in 2008.

"The biggest challenge [will] be how to sustain stable combustion during the high-speed trans-atmospheric flight of the vehicle," says sources at the Indian government's Defence Research and Development Organisation, under which the laboratory operates.

India has longer-term plans to use scramjet technology for its proposed 25,000kg (55,000lb) spaceplane called Avatar, the Sanskrit word for a god who appears in bodily form on Earth. The spaceplane would ferry civilian and military satellites of about 1,000kg into a low Earth orbit.
 

neo29

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since brahmos 2 flight path cant be changed, it will be used only for confirm kill missions. so brahmos 1 will be used more till brahmos 2 flight altering capability is attained

since we have the best technology of cruise missiles, we should use supersonic or hypersonic technology on our akash system, PAD, AAD, underwater torpedoes.
 
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LETHALFORCE

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Akash uses Hypersonic interceptors. Brahmos 1 maybe easier to manuever then Brahmos 2, S manuevers done with Brahmos 1 cannot be done with Brahmos 2 flying at mach 5-7 the missile would rip itself apart.
 

vijaytripoli

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Akash uses Hypersonic interceptors. Brahmos 1 maybe easier to manuever then Brahmos 2, S manuevers done with Brahmos 1 cannot be done with Brahmos 2 flying at mach 5-7 the missile would rip itself apart.
Than according to you , Brahmos can,t hit the moving target ?

chau
 

LETHALFORCE

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Than according to you , Brahmos can,t hit the moving target ?

chau
what I am saying is Brahmos 2 is harder to manuever then Brahmos 1 they both can hit the target(brahmos 2 twice as fast) but for speed the manuverability will be gone with Brahmos 2.
 

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http://www.hinduonnet.com/2008/11/14/stories/2008111462151500.htm


“Shourya missile cannot be easily detected”


CHENNAI: The “Shourya” missile that was test-fired successfully on Wednesday “flew at five times the speed of sound, that is Mach 5, for 300 km” of its 600-km range, according to M. Natarajan, Scientific Adviser to the Defence Minister. Its velocity gradually tapered off during the remaining 300 km of its flight and then it plunged vertically over the targeted site in the Bay of Bengal.

What was outstanding about the Shourya’s success was the performance of its indigenous navigation system with the help of a ring-laser gyroscope, Mr. Natarajan said on Thursday. He called it “a sophisticated navigation and guidance system produced by the Research Centre, Imarat” (RCI) in Hyderabad.

“We flew our own navigation system in this missile. It worked very well. This is an important step forward for the country in the navigation of missiles, aircraft and spacecraft,” he said. No country would provide India this navigation system.

After the Shourya was fired from its canister, it rose to a height of 50 km and then flew horizontally to reach its targeted site. As it reached its maximum speed, it led to the missile heating up to 700 degrees Celsius. To cool the missile, it was rolled.

“We did a rolling manoeuvre which gives uniform heat to the missile,” said Mr. Natarajan, who is also Director-General, Defence Research and Development Organisation (DRDO).

He watched the test-firing of the new missile from the Integrated Test Range (ITR) at Chandipur-on-sea, Balasore, Orissa. Shourya is a product of the DRDO. The missile’s Programme Director was A.K. Chakrabarti.

While about 2,000 degrees Celsius was generated when Agni series of missiles re-entered the atmosphere, only several hundred degrees Celsius was generated during Shourya’s re-entry.

The missile had high manoeuvrability. So it could not be easily detected by the enemy, Mr. Natarajan said. Shourya is about 10 metres long. It can carry warheads weighing more than 500 kg.

W. Selvamurthy, Chief Controller (R&D), DRDO, said the Shourya missile provided the country with “a second strike capability” because it was a variant of the under-water launched K-15 missile (Sagarika). “We can keep the missile in a secured position [silo] to carry either conventional or nuclear warheads,” Dr. Selvamurthy said.

DRDO sources said that although the Shourya needed a silo with a maximum depth of 50 metres to lift off, it could be launched from 30-metre deep silos. It had a booster which fired underground and another which fired in the air.
 

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India's Anti-ballistic Missile - PAD


India's Anti-ballistic Missile - PAD
 
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LETHALFORCE

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http://knol.google.com/k/vijainder-k-thakur/brahmos-2/yo54fmdhy2mq/48#

Brahmos-2
Hypersonic Cruise Missile


An agreement to develop a hypersonic follow up of the Brahmos missile jointly developed by India and Russia was reached during a visit by Russian Defense Minister Anatoly Serdyukov to India in 2008..
Contents

At a glance
Range 290 km
Speed` Mach 5-6
Development status Will be operational by 2019
Remarks Will use the same ground, sea and air based infrastructure as the Brahmos missile.

Preliminary work has begun on the development of missile capable of flying at a speed between 5 and 7 Mach using a scram jet engine.

Speaking to the press at Tiruchy on Saturday, February 14, 2009, Dr A Sivathanu Pillai, CEO & MD of Brahmos Aerospace said the missile will be ready within the next five years.

In September 2009, the two countries finalized the technical QRs for the missile and signed a Memorandum of Understanding (MoU), Defense Ministry sources announced on October 9.

It was agreed to limit the range of the missile to 290 km in order to conform to stipulations of the Missile Technology Control Regime (MTCR) of which Russia is a signatory. The regime forbids export of any missile with a range in excess of 300 km.

It was also decided to keep the physical characteristics of the new missile identical to those of Brahmos to enable the use of the existing Brahmos ground, sea and air to launch infrastructure.

Navy, Army and Air Force launchers developed for the Brahmos missile will be compatible with the Brahmos-2.

The missiles will be "picked and put" in the old launchers for usage by armed forces in Russia and India.

Development of the Brahmos-2 missile comes under the purview of the India-Russia Inter Governmental Commission on Military Technical Cooperation (IRIGC-MTC) and the India-Russia Long Term Inter-Governmental Agreement on the programme for Military Technical Cooperation. The agreement, initially signed in December 1998 is valid upto 2010. It is likely to be further extended to cover the period 2111-2020
 

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http://en.rian.ru/world/20100202/157751742.html

India to buy more BrahMos missiles

India has plans to introduce into its armed forces the new BrahMos missile, the head of the BrahMos Aerospace company, Sivathanu Pillai, told RIA Novosti on Tuesday.

Established in 1998, BrahMos Aerospace, a joint Indian-Russian venture, produces and markets BrahMos supersonic missiles. The sea-based and land-based versions have been successfully tested and put into service with the Indian Army and Navy.

Earlier on Tuesday, Russia's security chief, Nikolai Patrushev, visited the BrahMos headquarters in New Delhi. BrahMos is an acronym for the cities of Brahmaputra and Moscow.

The missile, known as BrahMos Block-2, can have a top speed of over Mach 5, which could make it virtually impossible to intercept, and can effectively engage even slightly visible ground targets. It has been designed primarily to meet the needs of the army.

"The army officials said they were pleased with last year's ground trials of the missile, and approved of putting it into service," Pillai said.

The company has also been developing another version of the missile for Air Force, the BrahMos-A missile, with a reduced mass and increased aerodynamic stability. The Indian Air Force chose the Russian-made SU-30 MKI Flanker-H multirole fighter as the trial platform for the missile.

"[This] version of the missile is now ready. Air trials will commence in 2011, and by 2012, we are planning to fit the missiles onto aircraft," Pillai said.

The required modifications of the SU-30 MKI for integration with the BrahMos-A missile system are being carried out by the Hindustan Aeronautics Limited (HAL) and Russia's Sukhoi Design Bureau.

Analysts estimate that India could purchase up to 1,000 BrahMos missiles for its armed forces in the next decade, and export some 500 to other countries during the same period.

NEW DELHI, February 2 (RIA Novosti)
 

LETHALFORCE

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agni 3 test details and comparision
(note there will be no agni 4)
 
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http://www.stratpost.com/us-report-on-asian-missile-capabilities

US report on Asian missile capabilities


A report issued by the US National Air and Space Intelligence Center (NASIC) on Ballistic and Cruise Missile Threats has put in perspective the range of Chinese, Indian and Pakistani capabilities in this regard.StratPost publishes extracts from the report.

The key findings of the report with respect to China points out ‘China has the most active and diverse ballistic missile development program in the world. It is developing and testing offensive missiles, forming additional missile units, qualitatively upgrading certain missile systems, and developing methods to counter ballistic missile defenses. China’s ballistic missile force is expanding in both size and types of missiles. New theater missiles continue to be deployed in the vicinity of Taiwan, while the ICBM force is adding the CSS-10 Mod 1 (DF-31) and CSS-10 Mod 2 (DF-31A) ICBMs. The new JL-2 submarine-launched ballistic missile (SLBM) is also under development. Future ICBMs probably will include some with multiple independently-targetable reentry vehicles’.

India and Pakistan continue to develop new short- and long-range ballistic missiles. Pakistan has tested its solid propellant Shaheen 2 MRBM six times since 2004 and India has tested its new solid-propellant Agni III IRBM three times since 2006. India has stated that the solid-propellant Agni II MRBM is ready for deployment.

Short Range Ballistic Missiles (SRBMs)

Missile Propellant Deployment Range(Miles)

China

CSS-6 Mod 1 Solid Road-mobile 370

CSS-6 Mod 2 Solid Road-mobile 550+

CSS-6 Mod 3 Solid Road-mobile 450+

CSS-7 Mod 1 Solid Road-mobile 185

CSS-7 Mod 2 Solid Road-mobile 370

CSS-8 Solid(1)/Liquid(2) Road-mobile 93

B611 Solid Road-mobile 93

(1) and (2) refer to stages.

India

Prithvi I Liquid Road-mobile 93

Prithvi II Liquid Road-mobile 155

Dhanush Liquid Ship-based 250

Agni I Solid Road-mobile 435

Pakistan

Hatf-1 Solid Road-mobile 50

Shaheen I Solid Road-mobile 280+

Ghaznavi Solid Road-mobile 250

Launchers

China

CSS-6/CCS-7: More than 200

India

Prithvi-I/II: Fewer than 50

Agni I: Fewer than 25

Pakistan

Ghaznavi/Shaheen-1: Fewer than 50

The missile inventory may be much larger than the number of launchers, because launchers can be reused to fire additional missiles.

Medium Range Ballistic Missiles (MRBMs) and Intermediate Range Ballistic Missiles (IRBMs)

New MRBM and/or IRBM systems are in development in China, North Korea, Iran, India, and Pakistan. These are strategic systems, and most will be armed with non-conventional warheads. All of these countries except Iran have tested nuclear weapons. Neither Russia nor the United States produce or retain any MRBM or IRBM systems, because they are banned by the Intermediate-Range Nuclear Forces (INF) Treaty, which entered into force in 1988. China has been very active in its development of MRBMs.

China’s long-term, comprehensive transformation of its military forces is improving its capacity for force projection and Chinese ballistic missiles play a key role in China’s effort to deny foreign military forces access to the region in any future conflict involving Taiwan. China currently deploys the nuclear-armed CSS-2, CSS-5 Mod 1, and CSS-5 Mod 2 for regional nuclear deterrence.

China is also acquiring new conventionally-armed MRBMs to conduct precision strikes at longer ranges. These systems are likely intended to hold at risk, or strike, logistics nodes and regional military bases including airfields and ports. Notably, China is developing an anti-ship ballistic missile (ASBM) based on a variant of the CSS-5.

India continues to develop and improve its ballistic missiles. Indian officials have stated that the solid-propellant Agni II MRBM is ready for deployment. The new solid-propellant Agni III IRBM has been flight-tested three times since 2006. Indian missile developers have also stated that they have the capability to produce an ICBM, with a range of about 3,000-3,700 miles.

Pakistan continues to improve the readiness and capabilities of its Army Strategic Force Command and individual Strategic Missile Groups through training exercises that include live missile firings. Pakistan has tested its solid-propellant Shaheen 2 MRBM six times since 2004, and this missile system probably will soon be deployed.

Missile Stages Propellant Deployment Range(Miles) Number

China

CSS-2 1 Liquid Transportable 1,900 5 to 10

(Limited Mobility)

CSS-5 2 Solid Road-mobile 1,100+ <50

Mod 1

CSS-5 2 Solid Road-mobile 1,100+ <50

Mod 2

CSS-5 2 Solid Mobile 1,100 <30

Conventional

CSS-5 2 Solid Mobile 900+ Not Yet Deployed

ASBM

India

Agni II 2 Solid Rail-mobile 1,250+ <10

Agni III 2 Solid Rail-mobile 2,000+ Not yet deployed

Pakistan

Ghauri 1 Liquid Road-mobile 800 <50

Shaheen II 2 Solid Road-mobile 1,250+ Unknown

All ranges are approximate. There may be several missiles available for each launcher. The exported CSS-2 has a conventional warhead.

Inter Continental Ballistic Missiles (ICBMs)

China’s ICBM force is intended as a strategic nuclear deterrent. China has a relatively small force of nuclear-armed, liquid-propellant CSS-3 limited-range ICBMs and CSS-4 ICBMs capable of reaching the United States, but China has been developing and deploying advanced new mobile, solid-propellant ICBMs. Both the road-mobile, solid-fueled, CSS-10 Mod 1 and the longer-range CSS-10 Mod 2 have been deployed to units within the Second Artillery Corps. The deployment of road-mobile ICBMs is enhancing the survivability of the Chinese strategic missile force. The CSS-10 Mod 1 is capable of reaching targets throughout Europe and Asia as well as parts of Canada and the northwestern United States. The longer range CSS-10 Mod 2 will allow targeting of most of the continental United States. China could develop MIRV payloads for some of its ICBMs, and the number of warheads on Chinese ICBMs capable of threatening the United States is expected to grow to well over 100 in the next 15 years.

Missile Stages Warheads Propellant Deployment Range(Miles) Launchers

China

CSS-3 2 1 Liquid Silo 3,400+ 10 to 15

& transportable

CSS-4 2 1 Liquid Silo 8,000+ About 20

Mod 2

CSS-10 3 1 Solid Road-mobile 4,500+ <15

Mod 1

CSS-10 3 1 Solid Road-mobile 7,000+ <15

Mod 2

All ranges are approximate. These estimates do not include range-extension from the post-boost vehicle; some post-boost vehicles provide substantial range extension.

Submarine Launched Ballistic Missiles (SLBMs)

China currently has a single XIA Class SSBN that is intended to carry 12 CSS-NX-3/JL-1 missiles. In addition, the Chinese will deploy the new CSS-NX-14/JL-2 SLBM on new 12-tube JIN Class SSBNs. This missile will, for the first time, allow Chinese SSBNs to target portions of the United States from operating areas located near the Chinese coast.

India is developing two new naval systems, the Sagarika SLBM (which is expected to become operational after 2010) and the Dhanush ship-launched ballistic missile (a naval version of the Prithvi land-based ballistic missile). The Dhanush is undergoing sea-based flight tests from an Indian naval surface ship.

Missile Stages Warheads Propellant Submarine Range(Miles) Number

China

CSS-NX-3/ 2 1 Solid XIA 1,000+ 12;

JL-1 ( Not yet deployed)

CSS-NX-14/ 3 1 Solid JIN 4,500+ 12;

JL-2 (Not yet deployed)

India

Sagarika Unknown Unknown Unknown Unknown 180+

(Not yet deployed)

Land Attack Cruise Missiles (LACMs)

Missile Launch Mode Warhead Range(Miles) Operational By

China

YJ-63 Air Conventional Unknown Unknown

DH-10 Unknown Conventional/Nuclear Unknown Unknown

India, Russia

Brahmos-A Air Conventional 150+ 2010+

The report does not mention the Brahmos ground-launched version.

Pakistan

RA’AD Air Conventional/Nuclear 200 Unknown

Babur Ground Conventional/Nuclear 200 Unknown

The report also acknowledges, ‘China is producing technologically advanced ballistic missiles and has sold ballistic missile technology to other countries. China has an extensive theater missile program and has deployed a large force of ballistic missiles in the vicinity of Taiwan. China is expanding the reach of this force to attempt to prevent foreign powers from becoming involved in any future regional conflict. China can already target the United States with a relatively small force of ICBMs, and China’s ICBM force will grow considerably.
 

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http://www.wisconsinproject.org/countries/india/MissileMiles2005.html

India Missile Milestones: 1947-2005

The Risk Report
Volume 11 Number 6 (November-December 2005)

1947: Dr. Vikram Sarabhai establishes the Physical Research Laboratory (PRL), which will later become a national center for space research, supported primarily by India's Department of Space.

1962: The Defence Research and Development Laboratory (DRDL), established one year earlier as an extension of the Special Weapon Development Team (SWDT), is moved to Hyderabad to work on missile design and development.

1962: The Indian Committee for Space Research (INCOSPAR) is established under the auspices of the Department of Atomic Energy.

1963: INCOSPAR establishes the Thumba Equatorial Rocket Launching Station (TERLS).

November 1963: A U.S.-produced, solid-propellant Nike-Apache rocket is launched from Thumba Equatorial Rocket Launching Station. The launch is part of an international effort under the United Nations. It is later followed by 350 U.S. French, Soviet and British rockets launched between 1963 and 1975.

1964: The Centre National d' Etudes Spatiales (CNES) and India's Department of Atomic Energy (DAE) conclude a Memorandum of Understanding (MoU) for CNES to supply four Centaure rockets with payloads for vapor cloud experiments. For its part, DAE will manufacture in India, under license, the Belier and Centaure types of sounding rockets.

1965: India establishes the Space and Technology Center (SSTC) in Thumba.

1967: The Satellite Telecommunication Earth Center is established in Ahmedabad.

1967: India launches its first sounding rocket, Rohini-75.

1969: The Indian Space Research Organization (ISRO) is formed under the Department of Atomic Energy.

1970: India and the Soviet Union sign a MoU on Collaboration in the Organization of Rocket Sounding of the Atmosphere by Soviet Meteorological Rockets at Thumba Equatorial Rocket Launching Station.

1972-1982: DRDL establishes missile-related infrastructure, including aerodynamic, structural and environmental test facilities, liquid and solid propulsion facilities, fabrication engineering facilities, control, guidance, FRP, and computer facilities.June 1972: The Space Commission and Department of Space is established and ISRO is brought under the Department of Space.

1975: India launches its first satellite, Aryabhata.

1977: India and France sign a Cooperation Agreement in the Field of Space Affairs.

1978: India and the United States conclude a MoU and an Exchange of Notes Constituting an Agreement Relating to Launching and Associated Services for Indian Satellites.

1979: Bharat Dynamics Ltd. becomes India's guided missile headquarters.

March 1979: A Centaure-2 type rocket is launched from Thumba, as part of an agreement and program begun in 1974. The rocket carries Bulgarian and Indian equipment for exploration and measurement of in space of proton and electron fluxes.

1980: India conducts the second experimental launch of its SLV-3 after its failed initial launch in 1979, and succeeds in placing the Rohini satellite into orbit.

1982: The Vikram Sarabhai Space Center (VSSC) successfully launches a Centaure rocket under the joint cooperation of India, West Germany, and Austria.

1983: India's Integrated Guided Missile Development Program (IGMDP) begins, with more than 60 public and private organizations involved.

April 1984: India and the Soviet Union conduct a joint manned space mission.

September-October 1984: A senior Indian delegation led by the Deputy Minister for Electronics, Dr. Sanjeevi Rao, visits the Soviet Union to purchase high-powered computers for India's defense and nuclear industry. The Soviet Union agrees to supply its latest-generation "Elbrus" computer system to India after 1986.

1986: India's Scientific Advisor to the Defense Minister Dr. V.S. Arunachalam announces that scientists at DRDL have successfully developed and tested a high-thrust, liquid-fueled rocket engine that generates a thrust of 30 tons and is capable of lifting a payload to a height of 600 km into space.

1987: After debate since 1985, an interagency group of U.S. officials from the Departments of Defense, State, and Commerce issue a communiqué that India is permitted to purchase from the United States "the Cyber 205, a Cray of approximately the same vintage, a single-processor Cray X-MP or some 'other machine of equivalent capability.'"

February 1988: India conducts the first test flight of its surface-to-surface Prithvi ballistic missile, under a program headed by the DRDL.

March 1988: India launches its first operational remote sensing satellite, IRS-1A.

April 1988: ISRO signs a cooperation agreement with the European Space Agency.

1989: India conducts a test launch of its first medium-range ballistic missile, called the Agni. Prime Minister Rajiv Gandhi states "The Agni is an R&D vehicle, not a weapons system. However, the technologies proved in Agni are deeply significant for evolving national security options."

1991: ISRO and Russia's Glavkosmos reach an agreement for the supply of engines and cryogenic technologies to India. Under U.S. pressure and sanctions imposed on ISRO in 1992, the agreement will be limited to the sale of seven KhimMach KVD-1 engines, each of which produces 7.5 metric tons of thrust.

1992: India acquires the ability to manufacture liquid hydrogen.

May 1992: India conducts a successful test of the third-stage motor for its PSLV, ignited under simulated high-altitude conditions.

May 1992: India stages its first successful launch of the four-stage ASLV, carrying its SROSS-C satellite into orbit, following two failed attempts in 1987 and 1988.

1993: ISRO signs a cooperation agreement with the European Space Agency.

1994: The periodical Flight International reports that India's Aeronautical Development Establishment (ADE) has for the past two years been engaged in designing a ramjet-powered, submarine-launched missile dubbed the Sagarika.

1995-1996: India suspends development of the Agni missile project.

January 1996: India conducts the first test flight of the Prithvi-II surface-to-surface ballistic missile with a range of 250 kilometers, far enough to reach Islamabad.

March 1996: India successfully conducts its third and final developmental launch of the four-stage PSLV, deploying a 1-ton Indian satellite into 500-mile polar orbit.

May 1997: India completes development of two variants of the Prithvi ballistic missile. A 150-kilometer range version with a heavier warhead is ready for introduction into the Army, while the 250-kilometer version with a lighter warhead destined for the air force is ready for user trials.

June 1997: A fewer than a dozen Prithvi missiles are moved close to the Pakistani border. Prime Minister I. K. Gural denies the deployment, but Western officials affirm in November that the missiles were moved from storage to sites near the Pakistan border.

August 1997: The Agni missile program is revived in response to Pakistan's test of the Hatf-III missile in July.

September 1997: India conducts the first operational launch of its PSLV-C1, deploying a 1200-kilogram Indian Remote Sensing Satellite (IRS-1D) into orbit. In reaching 817 km circular polar sun-synchronous orbit, the PSLV was powered by four stages of alternating solid and liquid propellant.

1998: India conducts five underground nuclear tests at Pokhran, ranging in yield from less than 1 kiloton to about 45 kilotons. Defense Minister George Fernandes reportedly says that India will "inevitably" arm itself with nuclear warheads. The United States proceeds to implement sanctions, in place by November 1998, on a large number of research, development, and production entities relating to space and missile technology.

February 1999: Indian Prime Minister A. B. Vajpayee and Pakistani Prime Minister Nawaz Sharif meet in Lahore, Pakistan. They agree to exchange strategic information about their nuclear arsenals, to give each other advance notice of ballistic missile tests, and to increase efforts to resolve the Kashmir issue.

April 1999: India conducts its first test of the nuclear-capable Agni-II missile. The two-stage solid fuel missile, which can carry a 1,000 kg payload, was successfully fired to a range of 2,000 kilometers.

May 1999: India launches a PSLV and successfully deploys an Indian remote sensing satellite and two other payloads.

July 1999: India successfully tests the Nishant, an unmanned aerial vehicle (UAV) designed to conduct aerial reconnaissance of battlefields.

October 1999: Scientists from the DRDO announce they are developing the Surya, an intercontinental ballistic missile (ICBM) with a range exceeding 5,000 kilometers.

April 2000: India tests the medium-range Dhanush missile, a naval version of the Prithvi.

August 2000: India's Agni-II missile reportedly reaches the operational stage. India's Defense Minister, George Fernandes, states that re-entry, guidance, and maneuverability have been tested.

February 2001: Dr. Vasudev Aatre, head of India's DRDO and scientific adviser to the Indian Minister of Defense, announces that India is developing the Agni-III ballistic missile. The Agni-III is anticipated to have a range of 3,500 km, improving upon the "range and capability" of the 2,100 km-range Agni-II.

March 2001: India's Defense Minister, George Fernandes, announces that the Agni-II ballistic missile is operational and is ready for mass production after its second successful test launch in January. The 2,500 km range missile may be launched from a static launch pad or mobile launcher and offers India a nuclear second-strike capability.

March 2001: The periodical Defense News reports that India and Russia's Central Scientific and Research Institute of Automatics and Hydraulics (TsNIIAG) are negotiating the sale of a variant of an electro-optical guided missile warhead originally developed for Scud-B ballistic missiles, which could drastically improve the accuracy of India's ballistic missiles.

March 2001: India aborts the first attempt to launch its GSLV, when computers detect that one of its four liquid-fueled strap-on booster engines is not generating the required 90 percent thrust.

April 2001: After tracing the March 2001 malfunction to a defective oxidizer line, India's GSLV successfully launches, setting the 3,000 lb experimental GSAT-1 communication satellite into orbit.

June 2001: According to the periodical Defense News, India successfully launches the PJ-10, also known as the BrahMos cruise missile, developed by DRDO and Russia's NPO Mashinostryenia (NPOM) under a secret 1998 Indo-Russian accord. The missile has a range of 280 kilometers and may be fired from Indian and Russian mobile launchers, ships, submarines and aircraft.

July 2001: India and France reportedly sign a MoU to co-develop and co-produce battlefield surveillance radars and ballistic missiles, and for India to domestically build Scorpene submarines.

August 2001: According to Jane's Defence Weekly, the Indian Army is to create a second missile regiment, the Strategic Rocket Regiment, to induct the Agni-II intermediate-range ballistic missile.

September 2001: U.S. President George Bush lifts sanctions against India and Pakistan imposed under the Arms Export Control Act.

December 2001: An unclassified summary of the U.S. National Intelligence Council's (NIC) National Intelligence Estimate claims most components required for an ICBM are found in India's indigenous space program. India could "convert its polar space launch vehicle into an ICBM within a year or two of a decision to do so." However, the report cautions that while India is striving for self-sufficiency, it still relies "heavily" on foreign assistance. The NIC also states that India will probably not deploy its Sagarika submarine-launched ballistic missile until 2010 or later.

December 2001: India successfully test-fires a 250 km extended-range version of the Prithvi missile, developed for the Indian Air Force. The indigenously developed surface-to-surface missile is one of the five missiles being developed under the IGMDP. The earlier version of the Prithvi is already in service with India's Army.

March 2002: India's Ministry of Defense announces that the Agni-II ballistic missile has entered into production phase and will soon be inducted into the Army.

March 2002: Scientists at India's LPSC successfully fire an upper-stage cryogenic engine for 12 minutes, the duration it will fire during actual flight. On the same day, ISRO successfully tests an improved variant of the two-meter diameter solid-propellant motor that powers the third stage of the PSLV. Improvements include "optimization of the motor case and nozzle and increased propellant loading." ISRO plans to use the motor in its PSLV launch later in 2002, which would be the first time that a PLSV will be used to place a payload in geostationary orbit.

April 2002: Jane's Defence Weekly reports that, according to U.S. intelligence sources and contrary to the claims of Indian officials, the first test of a single-stage variant of the Agni was a failure. The missile flew its anticipated range of 700 km, but the warhead failed to separate.

June 2002: The U.S. Central Intelligence Agency (CIA) in its Unclassified Report to Congress on the Acquisition of Technology Relating to Weapons of Mass Destruction and Advanced Conventional Munitions states that India "still lacks engineering or production expertise in some key missile technologies." The report adds that during 2001 Russia and Western Europe remained the main sources of missile-related and dual-use technology to fill these gaps.

July 2002: According to Jane's Defense Weekly, Indian defense officials claim that India has acquired two Green Pine radar systems from Israel, but say they have had little success in developing a missile defense capability against a possible Pakistani attack.

December 2002: The CIA in its Unclassified Report to Congress on the Acquisition of Technology Relating to Weapons of Mass Destruction and Advanced Conventional Munitions states that India was among the countries supplying assistance to Libya's ballistic missile program.

January 2003: India has allocated $1 billion to the DRDO for the development of hypersonic missile systems, powered by an indigenously developed cryogenic engine fueled by liquid hydrogen and liquid oxygen.

January 2003: The Cabinet Committee on Security (CCS) approves the creation of a Strategic Forces Command (SFC) to manage and administer all nuclear and strategic forces. The Nuclear Command Authority (NCA), comprising of a Political Council and an Executive Council, will be responsible for India's nuclear arsenal.

January 2003: India reportedly places under its SFC two operational missile groups of the Indian Army, which possess the 150-250 km-range Prithvi and the 2,500 km-range Agni nuclear-capable ballistic missiles.

February 2003: According to a DRDO official, India has begun a 10-year development program of a two-stage space vehicle called Avatar that can take-off and land like an aircraft and place a 1,000 kg payload into a low-earth orbit. The vehicle would be capable of performing about 100 re-entries into the atmosphere. According to the DRDO official, the primary function of the vehicle is to act as a "reusable missile launcher, one which can launch missiles, land … and be loaded again for more missions."

February 2003: An unnamed official from India's Ministry of Foreign Affairs states that India has agreed to invest approximately $150 million in Israel's Arrow-2 anti-missile system. The proposed investment must still be approved by the United States. Aerospace Daily claims that Israel has emerged as the second-largest supplier of weapons and equipment to India.

March 2003: The Times of India reports that British Prime Minister Tony Blair's dossier on Iraq alleged that India's NEC Engineers Private Limited had "extensive links in Iraq," including to Iraq's Al-Mamoun missile production plant, and had illicitly supplied ammonium perchlorate to Iraq.

April 2003: According to Indian Defense Minister, George Fernandes, India is developing and making efforts to test the Agni-III, a long-range surface-to-surface missile capable of carrying a nuclear warhead more than 2,000 kilometers.

May 2003: India conducts the second launch of its GSLV, lifting a 1,800 kg experimental communications satellite. Unlike the first flight, when the GSLV's Russian-made cryogenic upper stage burned out four seconds too soon, this launch occurred without incident. ISRO announces that once declared operational, the GSLV will "make the Indian space program a self reliant one."

May 2003: The Indian periodical Vayu announces that with the lifting of "restrictions imposed by collaborators," India's Bharat Dynamics Limited (BDL) has been cleared for missile exports. BDL manufactures a variety of missiles including the Prithvi-I and Prithvi-II surface-to-surface missiles.

July 2003: The Washington Post reports that a coalition of pro-India and pro-Israel lobbyists, including the U.S.-India Political Action Committee (USINPAC), America Israel Political Action Committee (AIPAC), and American Jewish Committee (AJC), have joined forces to gain U.S. approval for the sale of Israel's Arrow ballistic missile defense system to India.

August 2003: R. N. Agarwal, the former Director of the Agni missile project and currently the Director of the Advanced Systems Laboratory (ASL), states that the carbon composite content of the new Agni variants will be increased from 35 to 80 percent making them lighter and able travel longer distances. Agarwal says that the Agni's re-entry heat shield is entirely made up of carbon composite.

October 2003: India clears the short-range Agni-I and medium-range Agni-II surface-to-surface missiles for the Army.

October 2003: Defense News, citing defense officials in Washington and New Delhi, reports that in August India "formally asked" the United States for multiple Patriot Advanced Capability-3 (PAC-3) anti-missile systems. India's Prime Minister Atal Behari Vajpayee in September also requested inclusion in the U.S.-led global missile defense shield.

December 2003: Indian Defense sources indicate that the BrahMos cruise missile has been configured for launch from submarines. Submarine-to-surface launch is one of the four BrahMos designs, which are anticipated to include air-to-surface, ship-to-surface, and surface-to-surface. The missile was launched successfully from a surface ship and travelled 290 km to its target.

January 2004: India and the United States agree under the Next Steps in Strategic Partnership with India (NSSP) to expand cooperation in civilian nuclear programs, civilian space programs, and high-technology trade, including expanded dialogue on missile defense. This agreement initiates three major steps: removal of ISRO from the Department of Commerce Entity List, removal of export license requirements for items subject to Export Administration Regulations EAR99, and establishment of a presumption of approval for all items not controlled for nuclear proliferation reasons.

February 2004: ISRO chairman, G. Madhavan Nair unveils plans for the Ammonium Perchlorate Experimental Plant to expand ammonium perchlorate (AP) production from 300 metric tons to 800 metric tons by 2005.

March 2004: At the Sixth Joint Technical Group between India and the United States, Indian defense scientists approach the United States about possible cooperation in developing optronics, electro-optics, encryption, and sensor and jamming technologies.

March 2004: India successfully test-fires an "improved" version of its Prithvi-II surface-to-surface ballistic missile with an extended-range of 250 km and "much higher accuracy," according to a defense ministry official.

September 2004: India conducts the first operational flight of its GSLV, lifting a 1,950 kg spacecraft.

October 2004: India conducts a launch of its single-stage, Prithvi-III missile.

November 2004: India successfully test-fires the 350 km-range Dhanush missile, marking the induction of the system into the Navy. Dhanush is the naval version of the Prithvi-II.

December 2004: The Russian Federal Space Agency says that it will continue cooperation with India in the development of an oxygen-hydrogen booster for space rockets.

December 2004: India and Russia sign 10 agreements on space, defense, and aviation, including an agreement to jointly cooperate on satellite manufacture and launch under the Russian Global Navigation Satellite System (GLONASS). Russia's Federal Space Agency head, Anatoly Perminov, states that India's military use of the GLONASS system, which could help improve the accuracy of Indian missiles, has not been ruled out.

February 2005: President A.P.J. Abdul Kalam states before Parliament that the BrahMos missile "has been successfully tested ... and is ready for induction" into India's military.

May 2005: ISRO's four-stage solid and liquid propellant PSLV-C6 successfully propelled two satellites into polar sun synchronous orbit. The Spacecraft Control Centre of ISTRAC at Bangalore will continuously monitor the CARTOSAT-1, which is a cartographic satellite mounted with two cameras with 2.5 meter spatial resolution and 30 km coverage, and the HAMSAT, which is a micro-satellite intended for radio transmission.

May 2005: India's Rajya Sabha, the upper house of Parliament, passes the Weapons of Mass Destruction and Their Delivery Systems (Prohibition of Unlawful Activities) Bill, which bans proliferation of mass destruction weapon and missile technology. Once signed by India's President Abdul Kalam, the bill will become law and will apply to Indians in India and abroad, as well as foreigners residing in India.

May 2005: India has reportedly added the short-range Agni-I and intermediate-range Agni-II to its Strategic Forces Command arsenal.

May 2005: Agni program director, Dr. R. N. Agarwal says that the Agni-III, India's long-range ballistic missile designed to be capable of hitting targets 3,000 to 3,500 km away, will be ready for flight testing by the end of 2005.

June 2005: As part of the "New Framework for the U.S.-India Defense Relationship," signed by U.S. Defense Secretary Donald Rumsfeld and Indian Defense Minister Pranab Mukherjee, the United States has offered India a briefing on the Patriot PAC-3 missile system, as well as increased opportunities for technology transfer, collaboration, co-production, and research and development with the understanding that U.S. technology-related sanctions on India will be lifted.

June 2005: India's VSSC has begun work on its first hypersonic wind tunnel (HWT).

July 2005: A joint venture between Russia's Mashinostroenie Scientific Industrial Association and India's DRDO has begun mass production of the BrahMos cruise missile. The Indian Navy has placed the first order for the missile, which is also anticipated to be fielded by the Russian Navy. The baseline version is an anti-ship missile, which also may be fired from air platforms.

July 2005: The United States and India release a joint statement during a visit by India's Prime Minister Manmohan Singh to the White House. Initiatives to be implemented include signature of a Science and Technology Framework Agreement, establishment of closer ties in space exploration, satellite navigation and launch, and cooperation in the commercial space arena through such groups as the U.S.-India Working Group on Civil Space Cooperation.

August 2005: India's Defense Secretary Yogendera Narain states that India has acquired a Green Pine radar from Israel for "advanced research," after three to four years of discussions.

August 2005: The U.S. Department of Commerce removes from the Entity List ISRO subordinates: ISRO Telemetry, Tracking and Command Network (ISTRAC), ISRO Intertial Systems Unit (IISU), and Space Applications Center.

October 2005: India and Pakistan's Foreign Secretaries sign a formalized agreement on notification at least 72 hours ahead of ballistic missile tests. Contained within the agreement is a bilateral pledge not to set up any missile test launch site within 40 km of the Line of Control or the international border.
 

LETHALFORCE

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http://news.yahoo.com/s/afp/2010021...amilitaryeconomycompanybrahmos_20100216190923

India ready to export cruise missiles: official

NEW DELHI (AFP) – India, which has built a supersonic cruise missile jointly with Russia, is holding talks with at least four countries to sell the weapons system, a senior Indian official said on Tuesday.

BrahMos Aerospace, a 50:50 tie-up with Russia, needs the approval of both governments to export the weapon which its makers claim is the world's fastest cruise missile, each costing up to three million dollars.

"We are in the process of getting the necessary permission (for sales)," A. Sivathanu Pillai, chief executive officer of BrahMos Aerospace said on the sidelines of an arms expo in New Delhi.

A senior company executive, who asked not to be named, told AFP "serious negotiations" were under way with South Africa, Brazil and Chile for a maritime version of the missile while Indonesia has been offered a land-based BrahMos.

The joint venture stipulates the missile cannot be sold to "unfriendly countries," the 10-billion-dollar joint venture's marketing chief Praveen Pathak added.

The missile can fly at a speed of one kilometre (0.62 mile) a second.

"We have no competition for the next 10 to 15 years from American or the French makers of cruise missiles as the BrahMos is the fastest and most cost-effective system ever to be built," Pillai said.

The BrahMos carries a 200-kilogram (440-pound) conventional warhead, has a range of 280 kilometres (175 miles). Indian and Russian experts started development work on the missile in 2001.

The missile, which gets its name from the rivers of India's Brahmaputra and Russia's Moscova, was inducted into the Indian military in 2007 as a frontline weapons system.
 

SATISH

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By Ajai Shukla
Defexpo 2010, New Delhi

The country’s top defence scientist has, for the first time, revealed that India’s new Shaurya missile, which can carry a one-ton nuclear warhead over a distance of 750 kilometers, is specially designed to be fired from Indian submarines, and could form the crucial third leg of India’s nuclear deterrent.

If launched from a submarine off the China coast, it is capable of reaching many of China’s major cities, including Beijing, Nanjing and Shanghai.

Air and land-based nuclear weapons are delivered to their targets by fighter aircraft and ballistic missiles respectively. Since these can be knocked out by an enemy first strike, the most reliable nuclear deterrent has traditionally been underwater, missiles hidden in a submarine.

Dr VK Saraswat, the DRDO chief and Scientific Advisor to the Defence Minister, revealed to Business Standard at the ongoing Defexpo 2010, “We have designed the Shaurya so that it can be launched from under water as easily as from land. The gas-filled canister that houses the missile fits easily into a submarine. The underwater leg of the nuclear triad needs to be totally reliable and needs a state-of-the-art missile.”

India’s undersea deterrent has so far revolved around the K-15 ballistic missile, built with significant help from Russia. The K-15 was to equip the INS Arihant, India’s lone nuclear-powered submarine, which is being constructed in Visakhapatnam. But now, after rigorous underwater testing, the Shaurya could be the mainstay of Arihant’s arsenal.

“The Shaurya was developed from ground up as a submarine-capable missile”, confirms Dr Prahlada, the top DRDO scientist responsible for liaising with the military. “Every piece of technology for fitting it in a submarine is already in place.”

Shortly before the Defexpo 2010, Dr Saraswat had publicly stated that India’s missile technology was ahead of China’s and Pakistan’s.

Now top DRDO scientists have revealed that the Shaurya is not a ballistic missile, as it has been thought to be; it is actually a hypersonic cruise missile, which never leaves the atmosphere. A ballistic missile is like a stone being lobbed towards a target. Rockets toss it upwards and towards the target; after the rocket burns out, gravity pulls the missile warhead down towards the target. Buffeted by wind and re-entry forces, accuracy is a problem; and, since the ballistic missile’s path is predictable, shooting it down is relatively easy.

The Shaurya has none of these issues. Its solid-fuel, two-stage rocket accelerates the missile to six times the speed of sound before it reaches an altitude of 40 kilometers (125,000 feet), after which it levels out and cruises towards the target, powered by its onboard fuel. While ballistic missiles cannot correct their course midway, the Shaurya is an intelligent missile. Onboard navigation computers kick in near the target, guiding the missile to the target and eliminating errors that inevitably creep in during its turbulent journey.

The Shaurya, say DRDO sources, will strike within 20-30 metres of its target after travelling 750 kilometres.

Conventional cruise missiles, like the American Tomahawk and the Indo-Russian Brahmos, offer similar accuracy. But their air-breathing engines carry them along slowly, rendering them vulnerable to enemy aircraft and missiles. The Shaurya’s solid-fuel, air-independent engine propels it along at hypersonic speeds, leaving enemy fighters and missiles far behind.

“I would say the Shaurya a hybrid propulsion missile”, says Dr Saraswat. “Like a ballistic missile, it is powered by solid fuel. And, like a cruise missile, it can guide itself right up to the target.”

Making the Shaurya even more capable is its ability to manoeuvre, following a twisting path to the target that makes it very difficult to shoot it down. In contrast, a ballistic missile is predictable; its trajectory gives away its target and its path to it.

http://ajaishukla.blogspot.com/

thanks to Jungle from Def.pk
 

nitesh

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Can we claim to have world's first hypersonic cruise missile :)
 

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http://www.zeenews.com/news604609.html

BrahMos hypersonic missile to touch Mach 5 to 7 speeds


New Delhi: Indo-Russian joint venture BrahMos Aerospace is working on a hypersonic cruise missile that can touch speeds ranging from five to seven times that of sound.

The cruise missile's supersonic version for the land forces can touch speeds of two times the speed of sound and has a 290-km range.

"The hypersonic version of the BrahMos, to be called BrahMos-II, is in its design and technological development stage. It will take some time to mature. But our aim is for it to touch Mach 5 to 7 speeds, making it the fastest cruise missile in the world," BrahMos' Chief Executive Officer A Sivathanu Pillai said at the DefExpo here.


"The hypersonic missile, which will be smaller than BrahMos-I, will definitely provide an advantage to the Indian armed forces in future warfare," Pillai said when asked about the need for the missile.

The hypersonic version of the BrahMos would be built for its air platforms.

Already, the BrahMos is in the process of developing an air platform-based supersonic cruise missile and Sukhoi fighter jets of the IAF have been chosen as the platform for integrating the missile.

"The BrahMos will be integrated in to the Su-30MKI's built in India. But the aircraft would be sent to Russia for fitting a modified structure for the missile's integration. We plan to get it done by 2012," he said.

Apart from the Sukhois, currently being built at the Hindustan Aeronautics Limited's (HAL) facility in Bangalore on a technology transfer from Russia, other systems that would be Indian in the BrahMos plans are its launchers.

"The whole system including the aircraft would soon go for dummy trials and the missile integration process onto the Sukhois should start by next year," he said.

Meanwhile, Russia's Minister for Trade and Industries Victor Khrishtenko visited the BrahMos stall at the DefExpo, where he spoke to reporters about the possibilities of the Indo-Russian partnership in the field of defence.

Khristenko, giving the example of BrahMos which stood for Rivers Brahmaputra and Moscow being a joint venture between the two countries, said the defence cooperation between Indian and Russia was moving away from a seller-buyer relations to joint development phase.
 

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http://www.hindu.com/2010/02/23/stories/2010022360280200.htm



Missile Man-II, looking ahead and farther



GUNTUR: Missile Man of India A.P.J. Abdul Kalam's junior colleague Vijay Kumar Saraswat, chosen for the prestigious Dr. Yelavarthy Nayudamma Award 2009, is with love called Missile Man-II, for his dedication to achieve higher goals every year and reaching a farther target with missile technology developed indigenously.

If he has achieved three consecutive successful launches of Agni-III, he has set his eyes on Agni-IV and Agni-V that can strike targets that very few nations can dream of.

Currently he is the Scientific Advisor to Defence Minister, Secretary, Department of Defence Research and Development and Director General of Defence Research and Development Organisation.

Mr. Saraswat has been instrumental in development of various missile programmes like Prithvi-I, Prithvi-II, Dhanush, Devil and the Air Defence project.

Under his stewardship, the DRDO had achieved success in completing the tests of Agni-III missile with a range of 3,500 km. Agni V with a range of over 5,000 km would be launched in 2011 and various aspects related to Shaurya, a nuclear capable hypersonic cruise missile, were two big challenges that he was pursuing.

Born in Gwalior on May 25, 1949, Mr. Saraswat, graduated in Mechanical Engineering from Jiwaji University in 1970 and took the Master's degree from the Indian Institute of Science, Bangalore.

He obtained his doctorate in combustion engineering from Osmania University in 2000.

The scientist began his career in the DRDO at its Defence R & D Laboratory in Hyderabad in 1972.

Entrusted with the task of developing Devil, India's first liquid propulsion engine, he soon rose to become the Project Director of DRDL.

He embarked on a futuristic air defence programme, encompassing the development of complex anti-ballistic missile systems, and demonstrated the interception of an incoming hostile ballistic missile in exo-atmospheric regions in November 2006 and March 2009 and endo-atmospheric regions in December 2007, when he was the Chief Controller (Missiles and Strategic Systems) and Programme Director ‘AD' (Air Defence).
 

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http://www.wired.com/dangerroom/2010/02/darpa-plans-test-for-hypersonic-prototype/#ixzz0gJikZRvQ

Darpa Plans Test for Hypersonic Weapon


The Pentagon’s far-out science arm is planning an April test flight for a prototype of a hypersonic weapon that — in theory — could cross the Pacific Ocean in under two hours.

In a solicitation issued late last week, Darpa said it was looking to charter a U.S.-flag vessel to help collect telemetry for the upcoming test of a Hypersonic Technology Vehicle-2 (HTV-2). According to the solicitation, an unpowered HTV-2 will be launched on a booster rocket from Vandenberg Air Force Base in California and glide to a target site in the Marshall Islands, sometime between April 20 and April 27.

It’s the first public announcement of a flight test originally scheduled for 2009.

The flight test is part of the Falcon program, a Darpa-Air Force project to develop the tech that could lead to a reusable hypersonic vehicle that could take off and land like a plane. It would carry 12,000 pounds of payload over 9,000 nautical miles in less than two hours.

Falcon is related to another effort, dubbed Blackswift, that was supposed to lead to a test aircraft that could take off from a conventional runway, cruise at Mach 6 and land back on a runway. (The video embedded above is Darpa’s computer-animated rendition of Blackswift, a.k.a. Lockheed Martin Skunk Works’ Falcon HTV-3X hypersonic test vehicle.) However, Congress chopped Fiscal Year 2009 funds for the project, and Darpa decided not to move ahead with plans for the reusable spaceplane.

This upcoming test is supposed to demonstrate the thermal protection systems and aerodynamic controls of the HTV-2. If all goes according to plan, an HTV-2 will be launched by a Minotaur IV Lite rocket from Vandenberg, separate from the launch vehicle, then follow a hypersonic glide trajectory to an impact area in the ocean near Reagan Test Site at Kwajalein Atoll, where the Air Force also tests ICBM reentry vehicles.

According to the Darpa solicitation, the ship will be hired to transport, deploy and retrieve a set of nine impact-scoring rafts, as well as telemetry equipment that will help track the HTV-2 in its final seconds of flight.
 
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