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Deccan Herald - Now, ISROs bullet-proof vests

Now, ISROs bullet-proof vests
From Praveen Donthi, DH News Service, New Delhi:
Basking in the glory of Chandrayaan-1, the Indian Space Research Organisation (ISRO) is now planning to do its bit in fighting terror...


The space agency will develop world class bullet-proof armours by the end of this year. The jackets will cost 1/8th to 1/10th of the cost of the imported ones.

“After the Mumbai terror strikes, there was talk about sub-standard bullet proof jackets. In ISRO, we have great facilities which could be used to develop body armours. So we thought why not,” T G K Murthy, director of Atmospheric Science Programme, ISRO told Deccan Herald.


Murthy was in the capital to attend a technical seminar on internal security.

The project will be a joint venture between the ISRO and the International Advanced Research Centre for Powder Metallurgy and New Materials of the Department of Science and Technology.

“It required no fresh investments as we already have the set-up. Silicon Carbide Technology was established for space optics three years ago. Bullet-proof jackets will come as a byproduct,” said Murthy.

Affordability

India currently imports jackets from three undisclosed countries, but all of them are booked till 2012. “It will not only meet the needs of the security personnel but also the public in general because they will be more affordable now,” he added.

A 20-member team is currently involved in the production. The proto-model of the jacket will be ready by the middle of this year.

“We will be able to produce 2,000 jackets per annum whereas the requirement is around 20,000. Private players might collaborate in the future,” added Murthy.

Also, ISRO is thinking ahead and planning a major role in tackling terror in the future as well.

It has plans to develop highly penetrating high-energy laser guns and micro wave-based guns.

The atmospheric science programme section is gearing up to deal with any kind of biological and chemical terror threats, too.

 
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Northrop Grumman Showcases Advanced Homeland Defence Capabilities at Aero India 2009

Northrop Grumman Corporation will highlight its range of key capabilities including airborne early warning and control systems for maritime reconnaissance, fire control radars and unmanned aerial vehicles at the Aero India 2009 exhibition and air show.

Aero India is organised by the Ministry of Defence, Government of India and managed by the Confederation of Indian Industry (CII) and takes place at Air Force Station Yelahanka, Bengaluru, India from Feb. 11-15, 2009. Northrop Grumman will be exhibiting in Hall E at stand number E24.

Among the exhibits on display will be a Northrop Grumman’s world leading capabilities in airborne early warning and control. Featured will be the E-2 Hawkeye and 737 airborne early warning and control (AEW&C), multi-role electronically scanned array (MESA) radar.

An E-2 Hawkeye airborne early warning and battle management system crew workstation and flyable cockpit simulator aimed at demonstrating maritime reconnaissance will be on display.

Also on display will be a model of Northrop Grumman’s AN/APG-80 active electronically scanned array (AESA) radar for the F-16IN Super Viper multi-role fighter aircraft.

The Fire Scout vertical take-off and landing unmanned aerial vehicle will also be featured.

Other programmes available for viewing will be models of directional infrared countermeasures (DIRCM); the LITENING advanced airborne targeting and navigation pod; and the Longbow Apache radar and Longbow Hellfire missile system.

The company will also be promoting its LPD San Antonio-class Amphibious Warfare and Transport ship and the International Patrol Frigate, a versatile warship based on the multi-mission National Security Cutter currently operated by the U.S. Coast Guard.

Northrop Grumman’s German subsidiary, Northrop Grumman LITEF, will also be exhibiting at Aero India and will be displaying its navigation systems for land vehicles, sensors for weapon stabilisation, inertial guidance systems for missiles and AHRS / navigation systems for fixed-wing and rotary-wing aircraft. Northrop Grumman LITEF will be in the German pavilion in Hall C at stand C26.5.
 
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But this is slightly confusing. ISRO is strictly civilian.
Even if it launches sats dedicated to the military, it does so under contract from GoI like any other sale. It does not manage those sats. It builds and launches the sat as per the requirement of the contract.
 
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Northrop Grumman Showcases Advanced Homeland Defence Capabilities at Aero India 2009

Northrop Grumman Corporation will highlight its range of key capabilities including airborne early warning and control systems for maritime reconnaissance, fire control radars and unmanned aerial vehicles at the Aero India 2009 exhibition and air show.

Aero India is organised by the Ministry of Defence, Government of India and managed by the Confederation of Indian Industry (CII) and takes place at Air Force Station Yelahanka, Bengaluru, India from Feb. 11-15, 2009. Northrop Grumman will be exhibiting in Hall E at stand number E24.

Among the exhibits on display will be a Northrop Grumman’s world leading capabilities in airborne early warning and control. Featured will be the E-2 Hawkeye and 737 airborne early warning and control (AEW&C), multi-role electronically scanned array (MESA) radar.

An E-2 Hawkeye airborne early warning and battle management system crew workstation and flyable cockpit simulator aimed at demonstrating maritime reconnaissance will be on display.

Also on display will be a model of Northrop Grumman’s AN/APG-80 active electronically scanned array (AESA) radar for the F-16IN Super Viper multi-role fighter aircraft.

The Fire Scout vertical take-off and landing unmanned aerial vehicle will also be featured.

Other programmes available for viewing will be models of directional infrared countermeasures (DIRCM); the LITENING advanced airborne targeting and navigation pod; and the Longbow Apache radar and Longbow Hellfire missile system.

The company will also be promoting its LPD San Antonio-class Amphibious Warfare and Transport ship and the International Patrol Frigate, a versatile warship based on the multi-mission National Security Cutter currently operated by the U.S. Coast Guard.

Northrop Grumman’s German subsidiary, Northrop Grumman LITEF, will also be exhibiting at Aero India and will be displaying its navigation systems for land vehicles, sensors for weapon stabilisation, inertial guidance systems for missiles and AHRS / navigation systems for fixed-wing and rotary-wing aircraft. Northrop Grumman LITEF will be in the German pavilion in Hall C at stand C26.5.

Start a thread on the show...
 
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New engine test facility at Avadi CVRDE- Engineering-Ind'l Goods / Svs-News By Industry-News-The Economic Times

New engine test facility at Avadi CVRDE
7 Feb 2009, 1810 hrs IST, Balasubramanian, ET Bureau

A new state of the art engine test facility has been set up at combat vehicles research and development establisihment (CVRDE) at Avadi in Chenai. CVRDE is an important sstablishment under DRDO dedicated towards design and development of armoured fighting vehicles for the Indian Army.

Dr. A. Sivathanupillai, a distinguished scientist and chief controller (R&D) NS & ACE, DRDO Hqrs. Delhi inaugurated the new facility. It has two test cells capable of testing the engines up to 1500 KW and 800 KW power respectively

Speaking on the occasion, he said the other programmes of CVRDE for developing battle management system and creation of a simulation facility for main battle tank incorporating the high-tech features are progressing steadily and called upon one and all to continue the sustained hard work for their success. S Sundaresh, an outstanding scientist, director CVRDE Avadi Chennai was present on the occasion.
 
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Natwar Singh recounts 1986 showdown with China

Natwar Singh recounts 1986 showdown with China

New Delhi : In the midst of the eyeball-to- eyeball confrontation between Chinese and Indian forces in Sumdorong Chu valley of Arunachal Pradesh in 1986, General K S Sundarji, then Army Chief, had dropped a bombshell by suggesting that India could take on both China in the east and Pakistan in the west, says former minister K Natwar Singh.

Sundarji buttressed his contention during a meeting in Room No 9 of Parliament House of the Political Affairs Committee presided over by Prime Minister Rajiv Gandhi and attended by the civil and defence top brass, recalls Singh, who was the then Minister of State for External Affairs.

"The Army Chief made his presentation on Sumdorong Chu and also the western sector. He announced rather nonchalantly that India could take on both China in the east and Pakistan in the west," writes Singh in his new book 'My China Diary'.

Intervening in the discussion, India's Ambassador to China K P S Menon, a seasoned diplomat, pointed out that this was deja vu, 1962 in another guise, a reference to the Sino-India conflict.

Singh, who belongs to the 1953 Indian Foreign Service batch and has served in China, Pakistan and other countries, recounts that then Foreign Secretary A P Venkateswaran also met the same fate from the Army Chief.

At the meeting, P V Narasimha Rao, N D Tiwari, K C Pant and Buta Singh were all looking at the Prime Minister. Also present were Arun Singh, Minister of State for Defence.

Singh says he was surprised to hear the Army Chief's observations as a military reverse in the east would bring down the Government in spite of its huge majority in Parliament.

Singh, who was External Affairs Minister in the Manmohan Singh ministry, says he told Sundarji, "General, in 1962, we had Krishna Menon to sacrifice. In 1986, whom do we sacrifice, you or the Prime Minister?

In the latter part of 1986, it came to India's notice that Chinese forces had built a helipad at Wandung in Sumdorong Chu valley.

India had reacted swiftly resulting in a week of tense moments before both sides mutually agreed to withdraw their forces inside their respective territories and create a no man's land.


At the end of 1986, India granted statehood to Arunachal Pradesh, an area still claimed by China. The military movements in Tawang was seen by the Chinese as a provocation.

Both countries realised the danger of inadvertent conflict and after initial posturing, decided to de-escalate their deployments.

Singh offers new insights about the complexities of India-China relations in the 192-page book. He recounts his days as a diplomat in Beijing and writes about what transpired during Premier Chou En-lai's ill-fated visit to India in 1960 as also about Rajiv Gandhi's path-breaking visit to China in December, 1988.

The former minister has also come out with interesting backroom anecdotes and diplomatic manoeuvrings.

Singh said he had wondered how Health Minister B Shankaranand had become part of the PM's delegation. "When I went to brief him on China on the 18th in Delhi, all he talked was about the wicked Brahmins who surrounded the PM. Later, I

learnt that M L Fotedar had suggested his name".

In a passing reference, Singh said Gandhi had told him that Shankaranand had been "rewarded" for his "help" in the Bofors Joint Parliamentary Committee over which he had presided.

"Rajiv (Gandhi) told me that he (Shankaranand) had been rewarded for his help in the Bofors JPC," he said.

Singh heaped praise on Gandhi saying "the grandson of Jawaharlal Nehru did not let the pressure of the past to derail the present". Gandhi displayed "boldness, visionary and inspiring leadership. He was both audacious and prudent and endowed with an uncluttered, practical approach.

However, Singh also described Gandhi as an "impatient listener" not having an introspective mind and one who did not read books.

Singh gives glimpses of the tough negotiations during Gandhi's China visit before the two sides agreed on setting up joint working groups to deal with the boundary question, economic relations as also trade and science and technology.

Chinese Premier Li Peng had pressed for inclusion of "mutual accommodation" in the communique but apprehending that this could imply conceding territory, Gandhi suggested "mutual acceptability" as an alternative formulation.

Singh said Sonia Gandhi, who was accompanying Rajiv, got an attack of asthma during the trip. "My inhaler is not working," she told Singh who told her that he had left his inhaler at the guest house.

The high point of the visit was Gandhi's meeting with top Chinese leader Deng Xiaoping. "The Deng-Rajiv handshake lasted quite a while. It signalled that Deng wanted the Indian PM's visit to succeed," recalls Singh.

Narasimha Rao was "peeved" that Gandhi had not asked him to accompany him for his talks with Deng.

"I goofed," Gandhi later told Singh but this was for not taking Foreign Secretary K P S Menon for the talks with Deng.

Natwar suggested that Gandhi should send for Menon and tell him the lapse was regrettable. Gandhi had described Rao as "negative, indecisive and uncommunicative".

At one point, Singh says he suggested to Gandhi that Rao should be made a Governor and that the PM should take over MEA with two Ministers of State. Gandhi said he wanted to restructure MEA.

Singh recounts another meeting with Gandhi when the drank Coca-Cola. Gandhi then told him that the Coke people want to get back to India.
 
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General K. Sundarji

General Sundarji was amongst the most farsighted armoured corps commanders in the Indian Army. Despite being commissioned in the infantry, he was a keen student and admirer of tank warfare. He pioneered various operational guidelines, challenged his commanders to push the men & machines to the limits. In various exercises, he is known to have ordered tanks full speed up sand dunes in the Thar desert at 70º degrees Celsius. Amongst other things, he designed the flamboyant all-black uniform of the Indian Armoured Corps. Post his transformation of the Armoured Corps, he went on to create the Mechanised Infantry. With emphasis on speed, technology and mobile weaponry it is now an integral part of the Indian Army's Strike Corps. He is also credited for shaping modern Indian Army thinking. In his stint as the Commandant of the College of Combat in Mhow, he practically rewrote the Indian Army war manual with emphasis on speed, decisive action, technology and his abiding love - armour.

As Army Chief, his operations at Sumdorong Chu in 1986 - known as Operation Falcon - has been widely praised. The Chinese had occupied Sumdorong Chu and General Sundarji used the Indian Air Force's new air-lift capability to land a brigade in Zimithang, north of Tawang. The Indian Army took up positions on the Hathung La ridge, across the Namka Chu river, where India had faced a s humiliating defeat in 1962. The Chinse responded with a counter build-up and adopted a belligerent tone. Western diplomats predicted war and some of Prime Minister Rajiv Gandhi's advisers blamed General Sundarji's recklessness. But General Sundarji stood by his steps, at one point telling a senior aide, "Please make alternate arrangements if you think you are not getting adequate professional advice." The confrontation petered out.

Among the Indian Army's most articulate Generals, he guided and conducted the Indian Army's largest military exercise for its time, codenamed Operation Brasstacks, near the Indo-Pakistan border in Rajasthan. Conducted between December 1986 and January 1987, the exercise involved two armoured divisions, one mechanised division and six infantry divisions. The stated objective of Operation Brasstacks was to test new concepts of mechanization, mobility, and air support devised by General Sundarji. A man of immense wit, charm and style, he was also known as the 'scholar warrior' and a visionary with a brilliant mind. Handsome with high cheekbones and a pugnacious jaw, and with his cap worn at a rakish angle, he fitted the glamorous image of the soldier and was married to Vani Sundararajan. He was afflicted by an ailment of the central nervous system and was hospitalised during March 1998. He passed away on 08 February 1999, at the age of 69.
 
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The Hindu News Update Service

Army "unattractive" career option for youth: Gen Kapoor

New Delhi (PTI): Army chief General Deepak Kapoor feels the armed forces are an "unattractive" career option for the country's youth and is looking at steps to counter that image.

"It does worry the Army chief....very much," he said here when asked about the Army's plans to fill up the 11,000-odd vacancies in the officer cadre and the dwindling number of youth wanting to join the armed forces.

"The armed forces have, after a study, come to the conclusion that the army is not too attractive as a career for a young man, who is looking for employemnt...for good productive life," Kapoor said in an interview to PTI.

To reach out to the youth, the army has in the recent times proposed to make the Short Service Commission (SSC) an attractive option for the youth by encouraging them to go for additional qualification such as a Doctorate or an MBA to enhance opportunities in the private sector when they leave the force.

It had also moved another proposal to send the SSC officers for higher command courses to enable them to continue as permanent officers. These courses were hitherto offered only to regular officers.

Another plan was to provide the SSC officers 'gratuity' for the 14-year service in the army that would make some funds available to them as a buffer when they left the service.
 
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domain-b.com : AeroIndia 2009: DRDO has developed extreme technologies, says Dr Prahlad

DRDO has developed extreme technologies, says Dr Prahlad news

In a wide ranging,comprehensive interview on DRDO's capabilties and development programme, Dr Prahalad, chief controller R&D (SI), points out that the gap between users needs and DRDO's capabilities is reducing. The organisation is now fully capable of working out a road map with the army, navy and air force to develop weapon systems needed over the next 5-7 years.

Dr Prahalad,
Distinguished scientist and chief controller, R&D (SI), DRDO

1. Could you speak about the Akash and Nag missiles? How do they fare with comparable technologies and how far away are they from induction?

The Akash and Nag missiles were part of the Integrated Guided Missile Development Programme begun in 1984 under Dr Abdul Kalam as the chairman. We then took a purposeful decision that Akash and Nag would be the most complex and sophisticated missile systems in the IGMDP.

So, it was given the maximum time also, as compared to Prithvi, Trishul and Agni and others. Akash and Nag were given nearly 15 years. So, we knew at that time it was a very complex system and taking up the challenge we began developing these two systems.

In case of Akash, it has been uniquely configured and customised for our own Indian Army and air force. During the initial discussions with the army and the air force, they gave some requirements like it should be mobile, it should have a 30 km range, a very effective high kill probability, it should be integrated with the automatic command and control system, it cannot be manually operated, should have multiple target handling capability, which means that several targets could be engaged with several missiles simultaneously.

In most missile systems you have boost and coast – that is you boost the missile for some time and allow it to coast, or, boost, sustain and coast. The requirement here, however, was continuous thrust, or, all the way thrust. Once you start coasting, the maneuverability of the missile comes down. This was not acceptable to the services. They felt it should be continuously maneuverable till it intercepts the target, which meant the requirement was that the power/thrust had to be continuously on.

These were a unique set of requirements –such a missile doesn't exist anywhere in the world and it meant that we had to uniquely configure the missiles. That's how Akash was realised, We took 5 years more than what we promised to the army and air force, but when tested in the last development phase the results were 9/9 –that is out of the 9 missiles tested all them met the guidance and accuracy control requirements. Based on these tests the Indian Air Force has placed orders for 2 squadrons and the army is expected to follow suit.

Bharat Electronics will be the nodal production agency along with Bharat Dynamics and there will be at least 40 industries from the public and private sectors that will be involved with the manufacture of these missiles in large numbers.

So, this is one story and we expect that based on the expenditure of Rs600 crore that we have invested in the Akash missile, business worth about Rs7,000 crore should result for radars, missiles, launchers and control systems all put together within the next 5 years.

So, this is the story for Akash.

Coming to Nag, similarly, this missile is meant for the army, which wanted a missile with a 4-km range and fire-and-forget capability. That means we launch the missile from a tank and leave the place - this is also called the shoot-and-scoot technique. The Nag was specifically designed with a fire-and-forget capability.

The missile has what is called a tandem warhead. The warhead will have two stages – in the first stage the missile will make a hole in an enemy tank and in the second stage it will go inside and blow it up. This is a very special technology and we had to perfect it.

So this is the Nag- a tandem warhead, 4-km, tank-mounted, fire-and-forget, and very accurate, missile.

The last flight test has been successfully completed in day and night desert conditions in short range and long range test firings and we expect the army to place an order over the next couple of months.

2. The 'Shaurya' was a surprise development – where does it fit into the Indian missile spectrum?

If you look at our long-range strategic missiles you know we have Prithvi and Agni for ballistic or near-ballistic systems. Prithvi is a liquid fuel system and Agni is a solid fuel system.

Now the Agni has certain mobility, certain freedom to move from place to place. The Prithvi has its own certain requirements - it requires preparation time because of its liquid engines.

So we had to configure a unique third missile called 'Shaurya' which can be canisterised. Once sealed in a canister, it can be taken to any place giving it great tactical and operational advantage. It canbe deployed anywhere - in hilly terrain, desert etc. It is a relatively light, highly mobile, solid propellant fuelled missile. There is no preparation required.

So it has its own USP - and as per the requirement of the services we will be taking up the production of Shaurya.

3. The country's BMD technology would appear to be moving apace – could you dwell on aspects of the technologies that are being brought into play for the whole programme?

Ballistic Missile Defence or missile defence systems, are developed based on the threat perceptions as presented to us by the armed forces, which take into consideration threats from our neighbours, their plans etc. Based on these inputs we are developing certain critical technologies against ballistic missiles.

For this we need some unique technologies, such as high-speed propulsion, which can take missiles to hypersonic speeds. You need a high burning rate, solid propellants, which can take the missile quickly to high Mach number.

We need very high accuracy guidance so that the missile can even physically obliterate a hostile missile – what is called a hit-to-kill capability. For this we need not only radio gadgets but also thermal infra-red gadgets. So for this we need a combined dual-guidance –not only radar but also imaging guidance. This requires very high accuracy algorithms.

Also we need very quick reaction systems. When somebody launches a ballistic missile the time available to react to the threat is very short - a few seconds. So, the instant you know a missile has been launched you have to launch the defence system within seconds, fly at a much higher speed than the attacking missile and intercept very accurately at very high altitudes. So this requires what is known as extreme technologies. These have now been developed and we are trying to integrate these technologies and produce a weapon that can be used by the armed forces.

4. How do you look at an era of increased international cooperation in the development of technologies in the defence sector?

This is the new era of 2000+. In the 80s when we started our major system programmes like Arjun or Sonar or IGMDP or torpedo or radar, we never had the opportunity of international co-operation.

We were buying some components and making everything in-house. We built the computer from scratch from circuit boards. That was an era where we had to do everything in-house and within our industries and everything was a long drawn out and hard process.

Whereas in 2000, fortunately, the whole world has recognised our capability by seeing our LCA, main battle tank Arjun, radars, torpedoes, missiles and small arms that are in production. Our capabilities in prototyping, developing, testing and fielding our own weapons have been recognised.

So now they know that they cannot take us for granted. If they want business, they have to work together. Many countries have come forward for collaborative research and joint development. We have projects now with USA, Israel, Russia, Italy, Germany, Belarus, Brazil, France, UK among others.

In the 80s era what used to take 15 years to make we can now make in 5 years to 7 years. So, we have cut down the development time by almost 1/3rd because of the immense opportunities for international collaboration.

5. With respect to the areas of missiles could you dwell on two aspects:

b)One being the development of technology in this sector
c)The level of operationalisation that such technology has attained
Missile technologies are front-end technologies - very challenging and display characteristics such as high speed, high lethality, high maneuverability and quick reaction. So all this require the limits of technology whether you take materials, propulsion or control.

So of the technologies for this kind of technology for eg propulsion: solid propulsion, liquid propulsion and ramjet propulsion or if you take flight control systems and autocontrol systems, we need computers, electro actuation systems, lot of software intelligence for making the control system work and then we have navigation and guidance, we have to take the missile to long distances and guide it accurately to intercept the target.

When we take the warheads, each missile requires a different type of warhead Nag requires a tandem warhead, Akash requires a fragmentation warhead, Prithvi requires a runway penetration warhead.

We also have the C4I - command, control communication and intelligence integration. How do we do it? The missile is the part of network centric operation. We have to also develop guidance on how to use radar gadgets and imaging infrared technology to recognise targets using its thermal characteristics by getting a thermal picture to reach the tank and finding out its centre of gravity to hit it at the centre of the tank. This type of technology is the imaging infrared technology and you need millimeter wave technology for very accurate guidance and infrared imaging for imaging of a target.

So these technologies are required to be simultaneously developed for the missiles India has developed.

For operationalisation, these technologies go into the missiles eg: the Akash missile the ram jet propulsion is inside; the pre-fragmented warhead technology inside, very accurate radio or radar guidance is used in the missile system and auto pilot with a very powerful computer to make the missile maneuver to hit a maneuvering target, so you can out-maneuver a maneuvering target, at low, medium and high altitudes under any conditions rain, dust, summer, winter night etc.

So, these technologies get imbibed into the missile system, the ground system, the launcher system, and is integrated into the command control network. So the technology gets operationalised in the missile systems when they get fielded.

Now how we get these technologies? We have three strategies to develop: some of it is got from academic institutions. We go to the university professors, work with them on how to develop new science and technology.

Secondly, DRDO can jointly develop new technologies with industrial partners. For example, an actuation system, which we have mostly done in DRDO-industry collaboration.

Then comes foreign collaboration. Sometimes we develop technologies with foreign collaboration with our partner countries.

If none of this works, then the final strategy is in-house development within our laboratories and we have developed many technologies in-house.

So this is how we develop new technology, new science, perfect it and incorporate it into weapon systems

6. Obviously there exists 'dynamic tension' between the need to develop indigenous technologies and the need for the
services to be in a state of readiness, armed with contemporary technologies. How do you harmonise such tensions?


Fortunately this harmonisation is already taking place. Probably there was some gap in the capabilities of DRDO and the requirements of the armed forces. They require it fast and the latest to be made available. Since things were always available to them on their tables they always were bombarded with temptations to purchase but today two things are happening - arms research development and marketing has slowed down tremendously worldwide in comparison to the '80s. They are no more developing things just like that but develop it only on demand.

Secondly the armed forces have realised that a homegrown weapon system, sonar or radar etc has many advantages to them. They will be able to get life support very easily, product up-gradation, software and customisation. So, many things are possible and finally both cost of ownership, maintenance will be much lower if it is indigenously based and the things are available at your fingertips. So the armed forces are also trying to tap DRDO's capabilities to the maximum.

The gap between the user's needs and DRDO's capabilities is reducing. Today we are able to sit down with the army, navy air force to work out a road map on the kind of weapons they would need in the next 5-7 years. What new technologies they think we should develop and how to realise these technologies?

Thus we have generated 2 road maps - one for technology and the other for products. We have had extensive discussions on these even up to how they should look. For example Rustum, a medium altitude, long endurance unmanned vehicle where we have combined QRs (qualitative requirements) where the order rate is above 100 for all forces combined. When the services say that if you can develop this within the next 4 years within our requirements, at least an order of x number will be placed. The services are ready today how much they will order called MOQ (minimum order quantity).

When we have such a guarantee from the buyers, then it is easy to go the industry which can work with us to expedite the development because the industry will make the prototype, assemble it immediately and production time or realisation time will come down. Some of the industry partners are ready to fund the development cost also, even if it is 15 per cent or 20 per cent. When they fund the development cost they become the stakeholders and then responsibility increases and then it is produced according to specifications within the stipulated time and assemble and market it as well.

So, we are tying up the industry, the MOD, the three services and DRDO – we are converging, synergising, harmonising so we work together and see that the systems are developed for the good of the country, to meet our own a la carte service - customised to the taste, schedule, performance, quality, upgradation.

Plus this is also good for the health of the Indian economy as employment opportunities increase and industry capabilities increase, even drawing orders from other countries. Based on these technologies, I have observed that many of our SME and small-scale industries getting export orders.

So you see how the level of the economy goes up, the employment potential increases, our knowledge expands, university research level goes up, and our own departments of science and technology, their own understanding and knowledge goes up. So, as a country we can see an elevation of status technologically and economically.

With this harmony we see many good things happening
 
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India & Israel Introducing MR-SAM
11-Feb-2009 10:03 EST


In February 2006, “Israel, India to Cooperate on $350M Long-Range Barak SAM Project” covered a joint Indian-Israeli development agreement to create a new medium shipborne air defense missile, based on the Barak system in service with both navies. In October 2006, “India to Buy Israeli “SPYDER” Mobile Air Defense System” covered India’s move to buy mobile, short-range surface-to-air missile (SAM) systems for its army, based on the Python and Derby missiles in service with its air force and naval aircraft.

MR-SAM is an Rs 10,000 crore (almost $2.5 billion) project to develop a medium range SAM for use with India’s land forces. Despite a development timeline measured in decades, India’s indigenous “Akash” program remains in the test stage, and has not even begun user trials. By leveraging a foreign partnership as it did with the PJ-10 BrahMos supersonic cruise missile, India hopes to break the logjam and enjoy a similar level of success.

With the approval of the MR-SAM joint venture, India is moving to address its critical air defense weaknesses and upgrade “protection of vital and strategic ground assets and area air defence.” That effort is not unopposed, however…

MR-SAM: The Program

The DRDO Defence Research and Development Organisation (DRDO) will be the ‘prime developer’ for the project which will have a Rs 2,300 crore indigenous component. Israel Aerospace Industries will be the key partner, and will contribute most of the applicable technology, just as Russia did for the BrahMos by offering its SS-N-26 Oniks missile as the base platform. As of its approval by the Cabinet Committee on Security in July 2007, MR-SAM surpasses BrahMos, and may be the largest joint defense development project ever undertaken between India and any other country.

The 4-5 year project aims to provide India’s military with 9 advanced air defence squadrons, each with 2 MR-SAM firing units. Each unit, in turn, would consist of a command and control center, an acquisition radar, a guidance radar, and 3 launchers with eight missiles each. The total would therefore be 10 C2 centers, 18 acquisition radars, 18 guidance radars, and 54 launchers armed with 432 missiles ready to fire.

India Defence reports that IAI and its Israeli partners have agreed to transfer all relevant technologies and manufacturing capabilities to India. Indian sources estimate a 4-year, $300 million System Design & Development phase to develop unique system elements and an initial tranche of the land-based missiles.

“The project is crucial because, as highlighted by TOI earlier, there are still “many gaping holes” in India’s radar network and the armed forces only have near-obsolete air defence units like Russian Pechora [DID: upgraded SA-3], OSA-AK [DID: SA-8B, scheduled for interim upgrades], and Igla [DID: SA-16 shoulder-fired] missile systems.

Sources said the MR-SAM project is actually an extension of the ongoing DRDO-Israel Aerospace Industries (IAI) project, launched in January 2006 at a cost of $480 million, to develop a supersonic 60-km Barak-NG (new-generation) missile defence system for Navy.”

Barak is a supersonic, vertically-launched short range air defense system. It is currently in service with at least India, Israel, Singapore, and Venezuela, and possibly several other countries as well. India has bought over $300 million worth of these missiles as a substitute for the indigenous but long-delayed Trishul (“Trident”) missile project, and Barak systems now equip many of the ships in India’s Navy. The missile’s fast response time, effectiveness against missile threats, and compact size are considerable assets, but they are currently offset somewhat by a range of only 10 km/ 6 miles or so. The Navy’s Barak-NG project aimed to give the missiles a much longer reach, with the intention of making it India’s primary naval SAM.

India Defence and the Israeli newspaper Ha’aretz also reported that MR-SAM would be an extension of work done on the Barak-NG deal, but that is not yet certain. The Indian Express quotes DRDO Chief M Natarajan as saying that: “It is still under discussion. We cannot talk more about it…” Most reports, however, place the desired capabilities at 70 km/ 42 mile range (though India Defence says 150 km/ 90 miles) effective range, with 360 degree coverage and the ability to engage multiple targets simultaneously.

June 2007 saw the formal signing of a memorandum of agreement between Indian defense research authorities and prime contractor Israel Aerospace Industries (IAI). A formal add-on development contract was expected by early 2008, but so far, vague reports of a government go-ahead in November 2008 are all that have surfaced.

Israel has risen to become one of India’s largest defense industry partners, and may be on its way to surpassing Russia as India’s largest partner.

Updates & Key Events

Feb 10/09: Top Left Front leaders, Prakash Karat (General Secretary, Communist Party of India – Marxist) and A B Bardhan (General Secretary, Communist Party of India) send a letter to Prime Minister Manmohan Singh Opposing the MR-SAM contract to Israel Aircraft Industries (IAI), asking the government not to “subvert” india’s indigenous missile effort, which it characterizes as “superior.” The letter also cites the bribery allegations against IAI (see Oct 13/08 entry). Press Trust of India.

Jan 20/09: SR-SAM – Revenge of DRDO? India Defence reports that neither MBDA nor India’s state-run DRDO have given up on their “SR-SAM” short range air defense proposal. Rumors peg it as a combination of DRDO’s Trishul and MBDA’s VL-MICA system, though Trishul’s failure and VL-MICA’s techologies mean that claims regarding Trishul technology are likely to be about saving face as much as anything else.

The “Maitri” LLQRM proposal’s positioning would be directly competitive with RAFAEL’s SPYDER, and VL-MICA is deployable as a mobile system. That could affect SPYDER’s future expansion within the Indian military, and might even affect its prospects if program problems crop up. MICA’s capabilities mean that SR-SAM/Maitri would also be directly competitive with India’s indigenous Akash, and might even impinge on the proposed medium range MR-SAM deal.

Nov 9/08: An India Times article clarifies, noting that the current UPA government has cleared the MR-SAM development project to go ahead, despite the political/legal storm around the original Barak missile deal.

Oct 13/08: Reports from India indicate that the government has effectively downgraded IAI and RAFAEL’s status as vendors, suspending additional Barak missile purchases, and adding additional high-level approval steps for any new or existing deal involving either company. The moves are a response to ongoing CBI investigations, involving allegations that bribery was used to secure the original Barak ship defense missile deal in 1999-2000. Read “India Downgrades Vendor Status of IAI and RAFAEL” for more.

Aug 22/07: In a written Parliamentary response, Defence Minister Shri AK Antony offers a program update:

“The government has not decided on a joint venture with Israel for the production of missiles. The Defence Research and Development Organisation (DRDO) has earlier entered into a contract with M/s. Israel Aerospace Industries (IAI), Israel to jointly develop a Long Range Surface to Air Missile (LRSAM) system for the Indian and Israeli Navy in January 2006.”

Additional Readings & Sources

India Defence (July 8/07) – India, Israel To Co-Develop Advanced Barak Ship Defense Missile System
The Times of India (July 13/07) – Indo-Israeli air defence project gets green light
The Indian Express (July 13/07) – DRDO to get Israeli help for missiles
Ha’aretz (July 13/07) – Report: India, Israel to jointly develop $2.47b. missile system
Israeli Weapons – Barak. Also notes that that India’s orders of the Barak missile to date have totaled at least $360 million.
Israel Aircraft Industries – Barak Ship Point Defense System
Bharat-Rakshak – Barak SAM. Lists ships on which these missiles are installed.
Wikipedia – SA-3. The S-125 Pechora is a variant. See also this DID Spotlight article, which explains how a Serbian SA-3 battery survived NATO’s aerial attacks and shot down an F-117 stealth fighter in 1999.
GlobalSecurity.org – SA-8 GECKO / 9K33 Osa
GlobalSecurity.org – SA-16 GIMLET Igla-1 9K310. The new system would not replace these VSHORAD systems.
DID (updated) – India Gears Up To Begin Exporting Missiles. Covers the BrahMos, Trishul short-range SAM, Akash medium-range SAM, and Nag anti-armor missile. Updated.

India & Israel Introducing MR-SAM
 
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The Hindu Business Line : DRDO identifies 20 technology gaps

DRDO identifies 20 technology gaps

To tie up with varsities for research in these areas.

Our Bureau

Bangalore, Feb. 14 The Defence Research and Development Organisation has zeroed-in on 20 technology gaps which it will address in order to develop futuristic products for the Armed Forces, according to top officials of the organisation. These would go into products 15 years from now.

DRDO plans to kick-start research in these areas by collaborating with top institutions like the IISc, IITs and universities, DRDO’s Secretary, Mr M. Natarajan, who is also the Scientific Adviser to the Defence Minister, said at a news conference at the ongoing Aero India 2009.

For self-reliance in military products and technologies, DRDO realises that “(The country) has not invested enough in basic sciences and are weak in propulsion, stealth and some materials. Collaborations are on” to bridge the gaps, he said. DRDO was also enlisting industry support and hoped to get the technologies in ten years.

The defence R&D establishment is driving this research through 40-50 higher education institutes. The 20 themes include superior aerodynamics, hypersonic flight technologies, new-generation antennae, stealth, lasers, tank protection, nanotech, auto take-off and landing, aerostats and high-energy microwave and network centric operations, said Dr Prahalada, Chief Controller (R&D).

A two-seater trainer version of the indigenous light combat aircraft (LCA) is planned to be test-flown in two months. The LCA itself is under development. The IAF recently acquired the Hawk advanced jet trainers to train its fighter pilots.

supersonic fighter

Mr Natarajan said the LCA trainer would be a supersonic leading fighter comparable to the South Korean jet trainer 350. “We are also configuring a twin-engine medium combat aircraft on the LCA platform. Preliminary discussions have started with the IAF. The MCA will be equipped with stealth features, advanced avionics, electronic warfare, radars and features to carry weapons,” he said.

The same LCA platform is also used to develop an unmanned combat aerial vehicle.
 
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