we let idiot people do cheap work....... we like to make quality products..
Indeed, your 5000km does look like an idiot's work...
Indian Missiles - News, Developments, Tests, and Discussions
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Indeed, your 5000km does look like an idiot's work...
No, not at all! You don't even know your own history, let along that of China.
Your pathetic mentality proclaims that you know China’s history by a mere copy/paste of a short NYT article.
If that is not a sign of your handicapped brain, what else in the world it would be?While it seems you are indeed take sick pleasure in Japanese invasion of China, and perhaps dreaming one day India would do the same atrocity against China, as some Internet Indians posted, the following attached would conclude nicely the short episode in Chinese history of 10,000 years:
BTW, if India dares to follow Japanese fallen track, I bet you there will be a version of Indian Instrument of Surrender to China and its allied powers.
RPK
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Missile breakthrough: Agni-V poised for a global reach - National News ? News ? MSN India
Missile breakthrough: Agni-V poised for a global reach
Hyderabad: The Advanced Systems Laboratory (ASL) in Hyderabad, which develops India’s strategic (long-range, nuclear-tipped) missiles, has dramatically increased the options for its forthcoming Agni-5 missile by making it highly road-mobile, or easily transportable by road.
In many other respects, the Agni-5, which is scheduled to make its first flight in early-2011, carries forward the Agni-3 pedigree. With composites used extensively to reduce weight, and a third stage added on (the Agni-3 was a two-stage missile), the Agni-5 can fly 1,500 km further than the 3,500-km Agni-3.
"The Agni-5 is specially tailored for road-mobility," explains Avinash Chander, Director, ASL. "With the canister having been successfully developed, all India's future land-based strategic missiles will be canisterised as well".
Made of maraging steel, a canister must provide a hermitically sealed atmosphere that preserves the missile for years. During firing, the canister must absorb enormous stresses when a thrust of 300to 400 tonnes is generated to eject the 50-tonne missile.
Canister technology was first developed in India for the Brahmos cruise missile. But it was the K-15 underwater-launched missile, developed here in Hyderabad for India's nuclear-powered submarine, INS Arihant, which fully overcame the technological hurdles in canisterising ballistic missiles.
Another major technological breakthrough that will beef up the Agni-5 is ASL's success in developing and testing MIRVs (multiple independently targetable re-entry vehicles). An MIRV, atop an Agni-5 missile, comprises three to 10 separate nuclear warheads. Each warhead can be assigned to a separate target, separated by hundreds of kilometres; alternatively, two or more warheads can be assigned to one target.
"We have made major progress on the MIRVs in the last two years," is all that Avinash Chander is willing to say on the subject.
Nevertheless, extensive testing still lies ahead for this highly complex technology. MIRVs will be deployed on the Agni-5 only after another 4-5 years.
While MIRV technology is similar to launching multiple satellites through a space rocket, a missile requires far greater accuracy. A satellite would be considered in correct orbit even it is a kilometre higher or lower than planned.
But each warhead in an MIRV must impact within 40 metres of its target. With such high accuracies, even small nuclear warheads are sufficient for the job.
Strategic planners consider MIRVs essential, given India's declared "no first use" nuclear policy. Even after an enemy has hit India with a full-fledged nuclear strike, destroying or incapacitating much of the strategic arsenal, a handful of surviving Indian missiles must be capable of retaliating with massive and unacceptable damage. Multiple warheads on a handful of Agni-5 missiles would constitute such a capability.
MIRVs also enable a single missile to overwhelm the enemy's missile defences. Tracking and shooting down multiple warheads are far more difficult than intercepting a single warhead.
Providing each warhead with the capability to manoeuvre, and dodge enemy interceptor missiles, increases survivability further. The MIRV warheads are also being given electronic packages for jamming enemy radars.
Missile breakthrough: Agni-V poised for a global reach
Hyderabad: The Advanced Systems Laboratory (ASL) in Hyderabad, which develops India’s strategic (long-range, nuclear-tipped) missiles, has dramatically increased the options for its forthcoming Agni-5 missile by making it highly road-mobile, or easily transportable by road.
In many other respects, the Agni-5, which is scheduled to make its first flight in early-2011, carries forward the Agni-3 pedigree. With composites used extensively to reduce weight, and a third stage added on (the Agni-3 was a two-stage missile), the Agni-5 can fly 1,500 km further than the 3,500-km Agni-3.
"The Agni-5 is specially tailored for road-mobility," explains Avinash Chander, Director, ASL. "With the canister having been successfully developed, all India's future land-based strategic missiles will be canisterised as well".
Made of maraging steel, a canister must provide a hermitically sealed atmosphere that preserves the missile for years. During firing, the canister must absorb enormous stresses when a thrust of 300to 400 tonnes is generated to eject the 50-tonne missile.
Canister technology was first developed in India for the Brahmos cruise missile. But it was the K-15 underwater-launched missile, developed here in Hyderabad for India's nuclear-powered submarine, INS Arihant, which fully overcame the technological hurdles in canisterising ballistic missiles.
Another major technological breakthrough that will beef up the Agni-5 is ASL's success in developing and testing MIRVs (multiple independently targetable re-entry vehicles). An MIRV, atop an Agni-5 missile, comprises three to 10 separate nuclear warheads. Each warhead can be assigned to a separate target, separated by hundreds of kilometres; alternatively, two or more warheads can be assigned to one target.
"We have made major progress on the MIRVs in the last two years," is all that Avinash Chander is willing to say on the subject.
Nevertheless, extensive testing still lies ahead for this highly complex technology. MIRVs will be deployed on the Agni-5 only after another 4-5 years.
While MIRV technology is similar to launching multiple satellites through a space rocket, a missile requires far greater accuracy. A satellite would be considered in correct orbit even it is a kilometre higher or lower than planned.
But each warhead in an MIRV must impact within 40 metres of its target. With such high accuracies, even small nuclear warheads are sufficient for the job.
Strategic planners consider MIRVs essential, given India's declared "no first use" nuclear policy. Even after an enemy has hit India with a full-fledged nuclear strike, destroying or incapacitating much of the strategic arsenal, a handful of surviving Indian missiles must be capable of retaliating with massive and unacceptable damage. Multiple warheads on a handful of Agni-5 missiles would constitute such a capability.
MIRVs also enable a single missile to overwhelm the enemy's missile defences. Tracking and shooting down multiple warheads are far more difficult than intercepting a single warhead.
Providing each warhead with the capability to manoeuvre, and dodge enemy interceptor missiles, increases survivability further. The MIRV warheads are also being given electronic packages for jamming enemy radars.
US offers India the Aegis Combat System, the worlds most advanced shipboard weapons system
Defense and aerospace company ceo, president, defense decision makers, generals, defence ministers interviews, talks, discussions- Defense news
Mon - Mar 01, 2010
Defenseworld.net interviewed the Head of Lockheed Martin India, Mr. Roger Rose on his firms plans for India and key projects such as the MMRCA fighter aircraft bid, the C130J transporter and on bringing some of the companys latest defence technology to India as part of the offsets program.
What cutting edge technologies will Lockheed Martin bring to India as part of its offsets requirement?
Roger Rose: We are in touch with the Indian MoD regarding the Indian Navys consideration of the worlds most advanced shipboard Weapons System, the Aegis Combat System (ACS). The US Navy has briefed the Indian Navy on the capabilities of the world's premier area air defense combat system; other Asia Pacific navies operating Aegis systems are Japan, South Korea and Australia. Lockheed Martin and Hyundai Heavy Industries also included the Aegis CMS concept when answering the Project 17A RFI.
Defense and aerospace company ceo, president, defense decision makers, generals, defence ministers interviews, talks, discussions- Defense news
Mon - Mar 01, 2010
Defenseworld.net interviewed the Head of Lockheed Martin India, Mr. Roger Rose on his firms plans for India and key projects such as the MMRCA fighter aircraft bid, the C130J transporter and on bringing some of the companys latest defence technology to India as part of the offsets program.
What cutting edge technologies will Lockheed Martin bring to India as part of its offsets requirement?
Roger Rose: We are in touch with the Indian MoD regarding the Indian Navys consideration of the worlds most advanced shipboard Weapons System, the Aegis Combat System (ACS). The US Navy has briefed the Indian Navy on the capabilities of the world's premier area air defense combat system; other Asia Pacific navies operating Aegis systems are Japan, South Korea and Australia. Lockheed Martin and Hyundai Heavy Industries also included the Aegis CMS concept when answering the Project 17A RFI.
Tejas-MkII
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?US still denying us technology? | Deccan Chronicle
The Defence Research and Development Organisation (DRDO) is looking at providing technology for low-intensity conflicts such as terrorism and cyber warfare, as well as towards ensuring the security of Indian space assets, the DRDO chief and science adviser to the defence minister, Dr V.K. Saraswat, tells S. Raghotham in his first interview to the media since he assumed office in September 2009.
Q. The obvious first question where are we on the missile roadmap?
A. We have two streams of missile programmes strategic and tactical. There is a momentum, a certain push to achieve our requirements for strategic defence. Agni 3 is set for production in numbers. We have no doubt about the missile after three consecutive successful tests.
The 5,000-plus km range Agni 5 has moved out of the drawing board, developmental activities are on, subsystems work is in progress. We plan to do the first test flight by the end of the year.
After the successful test of Shourya, a canisterised missile with a range similar to Agni 1 around 700 km more and more of our missiles will go the canisterised way because then they can go on multiple platforms on land, air and sea. Next is a canisterised version of the 2,000-plus km range Agni 2.
Q. What about tactical missiles?
A. Nag, the anti-tank missile, will go in for repeat summer trials this year after we incorporated user (Indian Army) suggestions. Its a third-generation anti-tank guided missile with infrared seeker. India will be only the third or fourth country to make such a missile.
We have led Akash, the air defence missile, to production. The Indian Air Force (IAF) has ordered eight squadrons of Akash missiles, the Army has ordered two batteries.
In new missiles, the Astra air-to-air beyond visual range missile has undergone four to five ground launch trials. We are now qualifying its infra-red seeker. Once ready, it will go on multiple platforms, including Tejas and Sukhoi fighters.
For the Navy, we are developing a canisterised anti-anti-ship missile, with a range of 70 km, and able to intercept manoeuvring targets. It is an advancement over the 15-km range Israeli Barak missile. We are developing the Long Range Surface-to-Air Missile (LRSAM) in collaboration with Israel Aircraft Industries. The first flight test will happen in mid-2010. We started developing a similar missile for the IAF in late 2009.
Q. What about Cruise missiles? Sub-launched missiles? K-15?
A. We are setting up a cruise missile development programme under Nirbhay. I wont say more than that.
Q. What does the future look like for DRDO?
A. We have made a technology development plan for the next 25 years. It is dovetailed to projections made by the armed forces in their long-range plans, what they call the LTIPP (long-term integrated perspective plan), taking into account the changing nature of warfare and the threats that India is likely to face. It calls for directed basic research in technologies that are still in their infancy, customising technologies for different users and productionising the most mature technologies into platforms and systems. The focus is on improving the velocity of research. All research is now in mission mode.
Q. There has been criticism of the DRDO-military relationship.
A. Look, as I said, DRDOs technology development plan is now dovetailed to the militarys LTIPP. Two, there is now increasing coordination between the services and DRDO. The military is now involved at every stage in our projects. Also, what we do now is, if a development project is estimated to take five years but the military wants the capability sooner, we say, go ahead and buy it from outside. So, the potential for conflict between DRDO and military does not arise.
Q. What is the status of the Rama Rao Committee report and DRDO reforms?
A. A panel headed by the defence secretary is looking into the issue of implementing the recommendations.
Q. What are the focus areas in the 25-year technology development plan?
A. There are three. The closest to our heart is low-intensity conflict (LIC). Many technologies that we have developed for the military have relevance for LICs. You will appreciate that many agencies in the country are today involved in LICs the paramilitary forces, police forces, counter-insurgency and counter-terror organisations and so on. We have started a programme to customise DRDO technology for each of them. LIC is one of our key result areas now.
Another area is space security because future wars are going to be controlled from space as network-centric warfare becomes the new way of war-fighting. So, technologies that are relevant for space security such as ballistic missile defence, anti-satellite systems, are going to be part of our development process. Secondly, to be able to quickly launch satellites to regain space-based capabilities when existing assets are attacked or denied to our military during war. These are low-cost, quick reaction satellite launch systems and low-endurance satellites they last just long enough to do their job. What will emerge through our programme are micro-satellites, mini-satellites etc. On the launch side, some of our missiles can be modified, a satellite put on top of them and launched.
Q. Can our current missiles be used for anti-satellite hits?
A. With modifications, yes. But thats not our priority.
Q. Whats the third focus area?
A. Cyber security. As we move towards network-centric warfare, the security of the networks becomes a major requirement. DRDO already has a strong technological base in encryption and things like that. We want to enlarge that base to hardware and software to make our stand-alone systems impossible to penetrate, and harden for military usage those systems that have to work with commercial networks, such as the Internet. Cyber security will be most applicable in low-intensity conflicts. What we want is to be able to detect attacks on our systems and deny the attackers the pleasure.
Q. But much of the core electronics used in our defence equipment is imported.
A. So what we plan to do is to set up a facility to detect Trojans viruses, hidden locks, killer switches in the chips that we buy from outside before clearing them for usage in sensitive equipment.
Q. What are you doing to give a fillip to the private sector defence manufacturing base?
A. The DRDO has been partnering with industry for the last 25 years and has a network of 800 small and medium enterprises and large public and private enterprises working with us on various projects.
Now, we are starting a commercial arm of DRDO to transfer technology to industry. We already have a programme called ATAC (Technology Assessment and Commercialisation), with industry body Federation of Indian Chambers of Commerce and Industry (Ficci) as our partner which identifies potential technology buyers.
There are also technologies that have a larger relevance for the civilian market. For instance, what we do in our life sciences labs high-altitude agriculture, biomedical engineering research, nuclear-biological-chemical technologies, etc. The ministry of home affairs requires them for disaster management. For DRDO, 2010 is the year of R&D collaboration with industry, universities and the military.
Q. Are we going to see the Hyperplane test flight happen any time soon?
A. We faced a problem in high-temperature materials for the scramjet engine. We needed to run the engine for 20 seconds, but could do it only up to three seconds. We were denied imports of the material required. So, we launched a separate programme and developed three materials. We have now been able to reach 20 seconds twice. We want to do five to six more ground tests. We expect to be able to do the first test flight by the end of the year.
Q. But hasnt it become easier since the Indo-US nuclear deal to obtain technology?
A. No. We are still victims of US denial regimes. Our labs are still on the Entity List. Technology denial continues. There is a big gap between American talk and action towards us.
The Defence Research and Development Organisation (DRDO) is looking at providing technology for low-intensity conflicts such as terrorism and cyber warfare, as well as towards ensuring the security of Indian space assets, the DRDO chief and science adviser to the defence minister, Dr V.K. Saraswat, tells S. Raghotham in his first interview to the media since he assumed office in September 2009.
Q. The obvious first question where are we on the missile roadmap?
A. We have two streams of missile programmes strategic and tactical. There is a momentum, a certain push to achieve our requirements for strategic defence. Agni 3 is set for production in numbers. We have no doubt about the missile after three consecutive successful tests.
The 5,000-plus km range Agni 5 has moved out of the drawing board, developmental activities are on, subsystems work is in progress. We plan to do the first test flight by the end of the year.
After the successful test of Shourya, a canisterised missile with a range similar to Agni 1 around 700 km more and more of our missiles will go the canisterised way because then they can go on multiple platforms on land, air and sea. Next is a canisterised version of the 2,000-plus km range Agni 2.
Q. What about tactical missiles?
A. Nag, the anti-tank missile, will go in for repeat summer trials this year after we incorporated user (Indian Army) suggestions. Its a third-generation anti-tank guided missile with infrared seeker. India will be only the third or fourth country to make such a missile.
We have led Akash, the air defence missile, to production. The Indian Air Force (IAF) has ordered eight squadrons of Akash missiles, the Army has ordered two batteries.
In new missiles, the Astra air-to-air beyond visual range missile has undergone four to five ground launch trials. We are now qualifying its infra-red seeker. Once ready, it will go on multiple platforms, including Tejas and Sukhoi fighters.
For the Navy, we are developing a canisterised anti-anti-ship missile, with a range of 70 km, and able to intercept manoeuvring targets. It is an advancement over the 15-km range Israeli Barak missile. We are developing the Long Range Surface-to-Air Missile (LRSAM) in collaboration with Israel Aircraft Industries. The first flight test will happen in mid-2010. We started developing a similar missile for the IAF in late 2009.
Q. What about Cruise missiles? Sub-launched missiles? K-15?
A. We are setting up a cruise missile development programme under Nirbhay. I wont say more than that.
Q. What does the future look like for DRDO?
A. We have made a technology development plan for the next 25 years. It is dovetailed to projections made by the armed forces in their long-range plans, what they call the LTIPP (long-term integrated perspective plan), taking into account the changing nature of warfare and the threats that India is likely to face. It calls for directed basic research in technologies that are still in their infancy, customising technologies for different users and productionising the most mature technologies into platforms and systems. The focus is on improving the velocity of research. All research is now in mission mode.
Q. There has been criticism of the DRDO-military relationship.
A. Look, as I said, DRDOs technology development plan is now dovetailed to the militarys LTIPP. Two, there is now increasing coordination between the services and DRDO. The military is now involved at every stage in our projects. Also, what we do now is, if a development project is estimated to take five years but the military wants the capability sooner, we say, go ahead and buy it from outside. So, the potential for conflict between DRDO and military does not arise.
Q. What is the status of the Rama Rao Committee report and DRDO reforms?
A. A panel headed by the defence secretary is looking into the issue of implementing the recommendations.
Q. What are the focus areas in the 25-year technology development plan?
A. There are three. The closest to our heart is low-intensity conflict (LIC). Many technologies that we have developed for the military have relevance for LICs. You will appreciate that many agencies in the country are today involved in LICs the paramilitary forces, police forces, counter-insurgency and counter-terror organisations and so on. We have started a programme to customise DRDO technology for each of them. LIC is one of our key result areas now.
Another area is space security because future wars are going to be controlled from space as network-centric warfare becomes the new way of war-fighting. So, technologies that are relevant for space security such as ballistic missile defence, anti-satellite systems, are going to be part of our development process. Secondly, to be able to quickly launch satellites to regain space-based capabilities when existing assets are attacked or denied to our military during war. These are low-cost, quick reaction satellite launch systems and low-endurance satellites they last just long enough to do their job. What will emerge through our programme are micro-satellites, mini-satellites etc. On the launch side, some of our missiles can be modified, a satellite put on top of them and launched.
Q. Can our current missiles be used for anti-satellite hits?
A. With modifications, yes. But thats not our priority.
Q. Whats the third focus area?
A. Cyber security. As we move towards network-centric warfare, the security of the networks becomes a major requirement. DRDO already has a strong technological base in encryption and things like that. We want to enlarge that base to hardware and software to make our stand-alone systems impossible to penetrate, and harden for military usage those systems that have to work with commercial networks, such as the Internet. Cyber security will be most applicable in low-intensity conflicts. What we want is to be able to detect attacks on our systems and deny the attackers the pleasure.
Q. But much of the core electronics used in our defence equipment is imported.
A. So what we plan to do is to set up a facility to detect Trojans viruses, hidden locks, killer switches in the chips that we buy from outside before clearing them for usage in sensitive equipment.
Q. What are you doing to give a fillip to the private sector defence manufacturing base?
A. The DRDO has been partnering with industry for the last 25 years and has a network of 800 small and medium enterprises and large public and private enterprises working with us on various projects.
Now, we are starting a commercial arm of DRDO to transfer technology to industry. We already have a programme called ATAC (Technology Assessment and Commercialisation), with industry body Federation of Indian Chambers of Commerce and Industry (Ficci) as our partner which identifies potential technology buyers.
There are also technologies that have a larger relevance for the civilian market. For instance, what we do in our life sciences labs high-altitude agriculture, biomedical engineering research, nuclear-biological-chemical technologies, etc. The ministry of home affairs requires them for disaster management. For DRDO, 2010 is the year of R&D collaboration with industry, universities and the military.
Q. Are we going to see the Hyperplane test flight happen any time soon?
A. We faced a problem in high-temperature materials for the scramjet engine. We needed to run the engine for 20 seconds, but could do it only up to three seconds. We were denied imports of the material required. So, we launched a separate programme and developed three materials. We have now been able to reach 20 seconds twice. We want to do five to six more ground tests. We expect to be able to do the first test flight by the end of the year.
Q. But hasnt it become easier since the Indo-US nuclear deal to obtain technology?
A. No. We are still victims of US denial regimes. Our labs are still on the Entity List. Technology denial continues. There is a big gap between American talk and action towards us.
DMLA
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By Arun S.
Scientific advisor to the defence minister and director general, Defence Research and Development Organisation, Padmashri Dr V.K. Saraswat
After four successful tests, what is the status of the PAD (exo-atmospheric) and the AAD (endo-atmospheric) interceptors?
The Ballistic Missile Defence (BMD) programme is in two phases. The first phase deals with targets at maximum ranges of 2,000km and the second phase will cover longer range targets up to 5,000km. This will be our strategy of BMD development. Two interceptors, PAD and AAD have been developed in phase I. These trials started with the exo interceptor (PAD) at the altitude of 48km and second trial with the altitude of 80km, and the endo interceptor (AAD) was 15km. The phase I activity is to increase the altitude of interception as much as possible within the limits of the design of the interceptor. Now we are aiming to increase the altitude of PAD to more than 100km. For this, we have made certain modifications in the interceptor. This year, we will test the modified PAD at an altitude of over 100km for a 2,000km range missile.
Are you talking about PDV?
Yes, the modified PAD will be PDV and it will have two changes. The first stage of PAD which is a liquid motor will be replaced by a solid motor stage with high energy levels. The second stage, kill-vehicle has also been modified for higher interception accuracy. Earlier, in PAD, we had an RF seeker. Now we are introducing Imaging Infra Red (IIR) seeker also for higher accuracy. PAD also has divert thruster on the second stage to bring better accuracy and controllability. The PDV will be tested by the end of this year, with these new features.
In your last interview you mentioned that the length of the PDV will be one metre more than the PAD.
Yes, this is correct.
You have been quoted as saying that phase I of the BMD will be operationally deployed by 2011. What does this mean?
Our commitment is to complete the flight trials of the phase I interceptor for the 2,000km range missile by 2011. By 2013, we will realise all the other elements, including radars, required for strategic defence.
What is meant by saying that we will realise all the other elements?
It means completion of development trials of interceptors. This is not a conventional weapon which requires large numbers; the production of the needed interceptor will not take much time. Between 2011, when the interceptor development trials are over, and 2013 we will put together the required number of the interceptors as well as other elements like radars and control centres, which need time.
Who will produce the interceptors and the other elements?
BDL and BEL will be the producing agencies. Several sub-systems will come from the private industry as well, for example, launchers will come from L&T.
Is it correct that you are looking for the PDV interception at 100km plus range and the AAD interception at 20km range in phase I for medium range 2,000km missiles?
Yes, this is correct.
Regarding other elements, lets talk about the Long Range Tracking Radar (LRTR). The present one that you have is of Israeli origin (Green Pine radar) with the range of 600km. How do you plan increasing this range, and will outside assistance be sought?
We are planning to enhance the detection range of the existing radars. The exact range is classified. However, considering that we now have the capability and the capacity to build all elements of state-of-the-art radar, the range enhancement will more or less be an indigenous effort.
Are there any plans of using satellites and air (Synthetic Aperture Radar and Infra Red means) for LRTR?
We have plans for this, but the availability of satellite with required payload called the missile monitoring system payload is likely to take four to five years. But the process is on. Regarding air, until our own AWACS system gets deployed, we cannot integrate that. What we have done is through the air force network and air defence network and mission control centre we have integrated the entire command and control structure including data transmission. So when these platforms are commissioned and our own AEW & C gets going, we will have the early warning, detection and tracking through these assets.
Are you saying that until the AWACS and AEW & C systems are not commissioned, your BM/C3I (battle management and Command, Control, Communications and Intelligence system) for the BMD will not be realised?
This is not correct. I will have all the needed systems for BMD phase I as mentioned to you by 2013. What it means is that once I have air and satellite assets available, I will have more reaction time for ballistic missile defence. Lets say that today I have 120 seconds available to me between detection of a missile and its interception. Once I have air- or satellite-based assets, they give me a dual advantage by providing early warning as well as early cue to the LRTR. What this means is that of now I have 150 seconds available to me, I can enhance the interception from 100km to a higher altitude. Thus, the present system does not have any deficiencies; it will get better once the additional assets are available. I will get 20 to 30 per cent incremental advantage, both in detection and interception.
Are you planning any incremental changes in the MFFCS (multi-functional fire control system) that you have acquired from Thales that has the range of 350km?
The MFFCS is fine and does not need any further modification.
How many more interceptor tests have you planned?
As I mentioned, the PDV test is slated for later this year and an AAD test will be done in March 2011. The range for AAD will be 15 to 18km.
What are your plans for phase II?
In phase II, we plan to take on targets with ranges till 5,000km. This has two implications: One, the targets come to you at a higher velocity, and two, they come from higher altitude. For these targets, early warning and incremental increase in detection becomes essential. For this reason, it is important that the range of the long-range tracking radar be more than 1,000km. We have started work on this and it will take up to three years. When I say that this will be indigenous, it means that design and development will be done here, while computers and certain other essentials like TR modules will be procured from outside. You know that it is neither possible nor desirable to make everything within the country. Once work on radar is going on, we will also be working on the AAD 1 and AAD 2. For such targets, the interceptors need more agility, higher energy and higher speed. For example, AAD 2 will have speed of Mach 6 to 8, which is completely hypersonic. Today, the speed of AAD is between Mach 4 and 5, and is being called high supersonic. We will also increase the endo-atmospheric interception to more than 30km altitude. Similarly, the exo-atmospheric interception will cross the 200km altitude limit. The design for both these interceptors has been completed and we are already in the propulsion testing mode. Considering that they are new missiles, this process will take time. Roughly, we are looking at 2015 when phase II interceptors will be realised.
You have been quoted in the media saying that India is ahead of China in BMD. What does this mean?
I have been quoted out of context. What I had said was that we have taken steps to develop BMD from 1995 onwards. The Chinese have also started their work. They have shown satellite interception and recently on January 13, they have shown ballistic missile interception. That is all I said and this cannot be interpreted as saying that India is ahead of China
You have also been quoted saying that like China, we do not need to demonstrate satellite interception capability. What does this mean?
Demonstrating satellite interception is not something that is necessary to acquiring this capability. Satellite, as you know, has a predictable path, whether it is in the polar, low earth or any other orbit. To check my interception capability, I can always simulate satellite path electronically. I will generate an electronic scenario at the launch-pad as if I am getting the data from another satellite or ground-based radar and take that as the inputs to my mission-control centre and then launch as interceptor. Since the path is known, I can accurately know if I have hit the target or not, unlike the ballistic missiles, where the path can be unpredictable because of aero-dynamic and many other reasons. So technically, we have concluded that we do not need to check our building blocks to ascertain whether we have satellite interception capability.
Why have the Chinese felt the need to demonstrate satellite-interception capability?
I do not know. Only they can answer this question.
Is there any benefit in seeing an actual demonstration?
There are no technical benefits but maybe there are other benefits including 100 per cent assurance. These days, we have a lot of capability that actual flying tests are not required. Every time we make a change, we dont have to flight-test the capability.
You have also been quoted as saying that we dont need to build and store missiles as we have the capability to convert two weapon systems at short notice. The question is, a certain number of missiles will always need to be made and stored as, after all, how short is the short notice. Would you agree with this?
This statement was made to the media in the context of the Agni missile. You will appreciate that the Agni class of system is not a tactical missile. When you talk of strategic missiles and you dont have a threat today for these class of weapon system, and I was saying this in the context of an ICBM then there is no need to make and store these weapons.
Are you saying that certain number of the Agni series of missiles, including Agni I, Agni II and Agni III have not been made and stored?
No, this is being done as per the requirement.
Which is the production agency?
BDL is the production agency and they are well geared up for producing these series of missiles.
Another statement attributed to you is that you are making Multiple Independent Re-Entry Vehicles (MIRV)?
I never said that we will make the MIRV. We have no plans for MIRV. All I said was that we are working on Agni V. (But Mr. Avinash Chander confirmed they are working on MIRV as quoted by Mr. Ajai Shukla, may be they are trying to hide it)
Kinetic
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No, not at all! You don't even know your own history, let along that of China.
Your pathetic mentality proclaims that you know China’s history by a mere copy/paste of a short NYT article.
While it seems you are indeed take sick pleasure in Japanese invasion of China, and perhaps dreaming one day India would do the same atrocity against China, as some Internet Indians posted, the following attached would conclude nicely the short episode in Chinese history of 10,000 years:
BTW, if India dares to follow Japanese fallen track, I bet you there will be a version of Indian Instrument of Surrender to China and its allied powers.
A Chinese day dream!!! We all know what you have done in wining WWII. Indian soldiers fought throughout the world. But the Chinese did noting other than conquered by the Japanese. We are the only one who forced other to sign in Instrument of Surrender after WWII.
China and allied power! lol who will ally with you?
You even ashamed to use Chinese flag in your identity!
mjnaushad
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A Chinese day dream!!! We all know what you have done in wining WWII. Indian soldiers fought throughout the world. But the Chinese did noting other than conquered by the Japanese. We are the only one who forced other to sign in Instrument of Surrender after WWII.
You even ashamed to use Chinese flag in your identity!
you are talking about that cross border terrorism by your terrorist state. Lets not bring Pakistan into this.
Choppers
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Exclusive-artists-impression-of-mirv-warhead-on-AGNI-V
LiveFist - The Best of Indian Defence: EXCLUSIVE: Artist's Impression Of MIRV Warhead On Agni-V
LiveFist - The Best of Indian Defence: EXCLUSIVE: Artist's Impression Of MIRV Warhead On Agni-V
Udhaya
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Link: LiveFist - The Best of Indian Defence: EXCLUSIVE: Artist's Impression Of MIRV Warhead On Agni-V
image links not working.
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Hulk
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Another link for you.
EXCLUSIVE: Artist’s Impression Of MIRV Warhead On Agni-V | NeWs @ UniUrs
EXCLUSIVE: Artist’s Impression Of MIRV Warhead On Agni-V | NeWs @ UniUrs
jbond197
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Is Agni V going to have MIRV capability? I am not sure but want to learn how much capable we are to develop an MIRV capable missile?
