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Babur ready for induction

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Babur ready for induction :pakistan:
IMTIAZ GUL

Islamabad, June 1: Pakistan’s Army Strategic Force Command is all set to induct the ground-launched cruise missile Babur which is being upgraded to a range of 1,000 km.

The Babar cruise missile, which has been tested twice since August 2005, is a terrain hugging, radar-avoiding cruise missile.

According to military officials, it is a highly manoeuvrable missile with pinpoint accuracy.

Pakistani scientists are working to improve the missile’s range from 500 km to 1,000 km so that it can be inducted into the armed forces as soon as possible. The missile was last tested on March 22. The army had announced that the flight data collected after the successful test-firing backed the design parameters of the missile.

Pakistan formally kicked off its medium-range missile programme in April 1998.

http://www.telegraphindia.com/1070602/asp/foreign/story_7865596.asp
 
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That's excellent news. We should produce near enough a thousand of these Babur missiles and have fixed targets for each one. If war ever is to occur we could alunch waves of them first to take out strategic sites such as air bases and radar and roads-bridges- supplies to get the upper hand early.
 
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"thousand of these Babur"........... idea is good but how much a babur costs
 
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How am I not suprised,
2 Tests and bam induction....
 
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I personally really wanted to know what engine they are using for Babur and is it from US or China? or a JV?
 
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Very surprising indeed, as ever.

The Babar cruise missile, which has been tested twice since August 2005, is a terrain hugging, radar-avoiding cruise missile.

According to military officials, it is a highly manoeuvrable missile with pinpoint accuracy.
:enjoy:
 
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Not all suprising for me, cuz i know that you didnt do sqwat to develop it. Pakistan is the only country with such short development cycle, heck not even china, us, russia, uk, germany... you are the world record holders. i wonder why
 
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Who is the culprit than ? Does Indian intelligencies has any reports on that ?
 
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AoA
In dec 2004 a dinner conducted for Military attache`s of different countries in pakistan were discussing pakistan cruise missile in a casual talk. Rest assured nobody was surprised when pakistan tested one in 2005. What the media says is a different issue.
 
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Not all suprising for me, cuz i know that you didnt do sqwat to develop it. Pakistan is the only country with such short development cycle, heck not even china, us, russia, uk, germany... you are the world record holders. i wonder why

I would love to know where it came from then..........And please don't wave China around because They are still developing their own system.

It doesn't make you smart by reinventing the wheel when you don't have to.

And at the end of the day, there is going to be a LACM in service.
 
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hey i dont care where the missile came from as long it hits india and our enemies and deos the job. if it establishes deterence then i am not only happy but proud that we did not go the longway and developed our own missile we dont have the money or the time. One more thing i think this is a unkranian model cruise missile although i am not sure of that. if its not that then the ISI has done a great job by getting these missile blue prints. i am not taking anything away from our scientests.
 
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Russian Kh-55 Via The Ukraine

The unfortunate proliferation of the Soviet era Kh-55 missile is a case study in how the post Soviet apparatus of state in former Soviet republics has been unable to contain leakages of sensitive technologies.

Rumours that China and Iran had acquired examples of the Kh-55SM missile from the Ukraine had been circulating for some years, but without any robust data to validate these claims. This all changed with the Orange Revolution in the Ukraine and the collapse of the regime of pro-Russian president Leonid Kuchma, earlier accused of selling long range ESM systems to Saddam Hussein prior to Operation Iraqi Freedom.

Hrihory Omelchenko, deputy chairman of the parliamentary committee on organised crime and corruption, sent an open letter this January to the new Ukrainian president Viktor Yushchenko, in which he reported that government officials loyal to the former regime had actively obstructed investigations into the illegal export of the Kh-55SM missile to China and Iran.

The affair occupied considerable bandwidth in the Ukrainian and Russian media earlier this year. According to multiple sources, the illegal transaction was initiated in 2000, when two Russians, O.H. Orlov and E.V. Shelenko, both associated with the Progress export company, produced a false Rosvooruzheniye arms export agency contract document for the supply of twenty Kh-55SM missiles. This contract was provided to UkrSpetzExport, a Ukrainian equipment exporter. The two Russians were aided by the head of the Ukrainian Ukrazviazakaz company, Vladimir Evdokimov, a reservist in Ukrainian intelligence.

Omelchenko's letter claimed 'These cruise missiles were hidden on military depots of the Ukrainian Defense Ministry under the control of [the Defense Ministry] and under documentation signed by senior officials of the ministry, saying they were in fact designated as destroyed.'

A chain of front companies was used to cover the transaction, with six Kh-55SM missiles claimed to have been flown to China in April, 2000, and another six to Iran in June 2001. The deal included a KNO-120 ground support system for testing, initialising and programming the missiles. The destination of the remaining eight rounds was not disclosed. Iran is alleged to have paid US$49.5 million for the missiles, with Orlov and Shelenko earning US$600,000 for their efforts. Russian and Ukrainian media also allege that an Australian national, later identified by Sengupta as Haider Sarfraz, was part of the transaction. He is reported to have later died in a car accident.



Kh-55: Source of recent cruise missile technology proliferation. Source: Internet

This transaction comes as no surprise to analysts familiar with contemporary Russian arms exports. US based analyst Dr Alexander Nemets argued some years ago that China was operating two parallel campaigns to acquire Russian weapons technology. One involved legal acquisitions via Rosoboronexport (formerly Rosvooruzheniye), the other not so legal acquisitions via the black market.

Iran's connections with the DPRK are also widely documented, and the export of DPRK ballistic missile technology to Iran provided a technological foundation for Iran's developing IRBM manufacturing infrastructure. Iran invested considerable effort in circumventing Western embargoes on exporting military technology, especially to maintain the large inventory of US aircraft and other equipment supplied during the reign of the Pahlavi regime.

A.Q. Khan Role?

Further complexity has been added to this equation recently by analyst Prasun K Sengupta, editor of the Asian Defense Journal, who has connected the China-Iran Kh-55SM purchase with Pakistan, cite:

'While the world is now more than well conversant with the 'Wal-Mart' of nuclear weapons proliferation that was created by Pakistani metallurgist Dr Abdul Qadeer Khan since the mid-1990s, it is only now that details are emerging about a parallel 'Wal-Mart' that Dr. Khan built up, this time for acquiring nuclear warhead-carrying land attack cruise missiles (LACM). The quest for acquiring such a capability began in late 1999, following which Dr. Khan began assembling a dedicated team of arms dealers and smugglers for the purpose of acquiring a few LACMs off-the-shelf from Ukraine, and then dividing the consignment among three beneficiaries: Pakistan, China and Iran.' ;

'Upon reaching Dubai, the consignment was transshipped to the Iranian port of Bandar Abbas, where the consignment was broken down into three parts: 12 Kh-55SMs for Iran, two Kh-55SMs for Pakistan and the remaining six for China. The latter two consignments were eventually airlifted to their final destinations by August 2001.';

'As the entire Kh-55SM smuggling operation was bankrolled by Iran, Teheran staked its claim for leading the R&D effort aimed at re-/reverse-engineering the Kh-55SM into a ground/sea-launched LACM with China and Pakistan playing secondary roles.'

Sengupta also identifies a consortium of Chinese organisations formed to support the exploitation of acquired cruise missile technology, and the development of a GPS/RLG based midcourse guidance system and Scene Matching Area Correlator terminal navigation system, these including the Shanghai Institute for Optics and Fine Mechanics, China North Opto-Electro Industries Corporation (OEC), Changchun Institute of Optics and Fine Mechanics, and Luoyang Opto-electro Technology Development Centre.

While it is impossible to independently validate Sengupta's claims, existing reports display wide discrepancies in the numbers of Kh-55SM rounds distributed between China and Iran, and adding Pakistan to the mix resolves this uncertainty. China's YJ-62 and Pakistan's Babur are sufficiently different in configuration from the Kh-55SM, that they cannot be regarded to be direct clones.

In the broader context, the significance of the Soviet era Kh-55SM should not be underestimated. This is the most capable strategic cruise missile in service globally, other than the US AGM-86B ALCM and BGM-109B Tomahawk. It is the backbone of the Russian air launched nuclear deterrent, equipping the Tu-95MS Bear H and Tu-160 Blackjack A bombers.

The Design and Capabilities of the Kh-55 Kent

The Kh-55 family of cruise missiles owes its origins to a series of internal studies at the Raduga OKB during the early 1970s. Raduga were unsuccessful initially in convincing the Soviet leadership of the value of their concept, but this changed as public knowledge of the US AGM-86 Air Launched Cruise Missile program became better known in the Soviet Union.

Russian sources claim that Raduga's early work on these weapons was opposed by many Russian experts who were deeply sceptical of the viability of such a complex new weapon.

The Kh-55 family of weapons most closely resemble the early US BGM-109 Tomahawk in concept, using a cylindrical fuselage with pop out planar wings, unfolding tail control surfaces, and a ventral turbofan engine, with guidance provided by a TERrain COntour Matching (TERCOM) aided inertial navigation system.

The most visible difference between the Tomahawk and Kh-55 families of missiles is the engine installation. The Tomahawk's Williams F107-WR100 engine is embedded in the tail and uses a ventral inlet duct and tailcone exhaust. The Kh-55's Omsk AMKB TVD-50 two spool turbofan is mounted in a nacelle which is stowed in the aft fuselage and deploys via a ventral door on a pylon after launch.

The TVD-50 is a critical piece of technology in the Kh-55 as it is a compact and fuel efficient turbofan in the thrust and size class required to power cruise missiles, standoff missiles and UAVs. The cited thrust rating is 400 to 500 kp (880 to 1,000 lbf), with a dry mass of 95 kg (210 lb), a Specific Fuel Consumption of 0.65, a length of 0.85 m (33.5 in) and diameter of 0.33 m (13 in).

The Tomahawk uses a four surface tail control assembly with anhedral on the stabilators, whereas the Kh-55 uses only three larger surfaces, with more pronounced anhedral, a configuration since adopted in the new Block IV RGM/UGM-109E Tomahawk Land Attack Missile. The largely symmetrical aft fuselage of the Tomahawk differs from the more pronounced sculpting of the Kh-55 aft fuselage.

The cylindrical fuselage configuration is essentially the same for both designs. The Tomahawk has a 21 in diameter, the Kh-55 a 20.5 in diameter, the Tomahawk weighed 2,700 lb at launch, the Kh-55 2,870 lb. The later blocks of the Tomahawk have a chinned 'Beluga' nose to reduce radar signature, the Kh-55 retains an ogival/spherical nose.

The baseline guidance package on both missiles is designed around a digital computer running Kalman filter and TERCOM software, with an onboard memory storing a digital map, coupled to a radar altimeter for terrain profiling and a low drift inertial unit. Tomahawks later acquired an optical Digital Scene Matching Area Correlator and GPS - the Soviet had DSMAC technology but it has never been disclosed whether this was added to the Kh-55 series. The cited designation for the Kh-55 guidance package is the Sprut and BSU-55.



Babur: Pakistan’s new cruise missile is believed to have benefited from Kh-55 technology as well as inputs from captured U.S. Tomahawks and from Chinese assistance. Source: Internet

Like the Tomahawk, the Kh-55 spawned a range of derivatives, unlike the Tomahawk the Kh-55 became the dominant air launched weapon. The first generation of Kh-55s appeared in three configurations, entering service in 1984. The 'Izdeliye 120' Kh-55 / AS-15A was air launched from the Tu-95MS using a MKU-6-5 rotary launcher and external pylons, the RKV-500A / SS-N-21 Sampson was tube launched from the Type 671 Victor, Type 945 Sierra and Type 971 Akula submarines, and the RK-55 / SSC-X-4 Slingshot tube launched from a MAZ-543M (MAZ-7310) 8x8 TEL, carrying six rounds.

The air launched Kh-55 was followed by the improved 'Izdeliye 124' Kh-55OK, which was supplanted in production by the most capable 'Izdeliye 125' Kh-55SM / AS-15B subtype in 1987.

The aim of the Kh-55SM design was to further extend the striking range of the basic missile, cited at 1,350 NMI (2,500 km). This was achieved by adding a pair of conformal fuselage fuel tanks, which increased launch weight to 3,750 lb (1,700 kg), but increased cruise range to 1,620 NMI (3,000 km) with a 200 kT warhead fitted. The naval variant of the Kh-55SM was designated the RKV-500B.

A conventional derivative of the Kh-55, designated the Kh-555, was recently announced. A lightweight shorter ranging derivative weapon, the Kh-65, has been actively marketed since the 1990s.

For all intents and purposes, the late model Kh-55SM is a heavier and longer ranging equivalent to the BGM-109B Tomahawk, with performance closest to the AGM-86B ALCM.

The Proliferation Problem

The Kh-55SM is an attractive target for reverse engineering, as the design is implemented using 1970s Soviet technology. As such, the electronics in the guidance system can be readily reversed engineered using commercial components, and the structure and engine use commodity materials technologies.

While many nations have the engineering capability to design an airframe in the class of the Kh-55 and Tomahawk, developing and integrating the guidance package and engine is much more demanding.

The low density electronics technology in the Kh-55SM is a case in point. Built using first generation Soviet embedded computers, the hardware is simple enough to copy directly and the software, coded in assembly language as was customary during that period, could be downloaded with no difficulty. Publicly available software tools such as reverse assemblers could be adapted with little effort to reconstitute the original source code for the missile navigation and guidance package, and ground support equipment. Unlike contemporary US weapons which use complex anti-tamper techniques in the software and integrated hardware, the Kh-55 predates this model by a generation.

Once the party performing the reverse engineering has reconstituted the original software, and cloned the original hardware, the reverse engineered Kh-55 can be launched on its own evolutionary path as a derivative design. This means additional navigation sensors to feed the Kalman filter, and a range of possible improvements to the missile's trajectory and navigation algorithms. In Third World economies with low labour costs, series production costs are not the issue they are in the developed world, and China's enormous growth is a compelling case study.

The only components in the design which could present difficulties for a new player are the engine turbine and combustors, which require some skill in metallurgical techniques to achieve viable durability in a four hour flight profile.



Chinese YJ-62: Now being marketed as a long-range anti-ship cruise missile, it could also form the basis for a long-range land attack cruise missile. Source: Internet

There is little doubt that China has the capability to wholly reverse engineer the Kh-55SM. Some Western analysts have argued that China's acquisition of these weapons makes no sense, as China is designing its own Tomahawk class weapons. This is not a robust argument for several reasons. The first is that China has in recent decades nearly always run parallel development programs, using wholly indigenous and licenced or reverse engineered foreign technology. More than often the foreign design has displaced the indigenous design.

The second reason is because the integration and testing of cruise missiles is very expensive, and remains so globally, due to the complexity of such weapons. While an indigenous design may have working components, the system may not function adequately as a whole. Reverse engineering the internals of the Kh-55, or parts thereof, makes for a viable shortcut to save significant time and money.

The third reason is the simple expedient of time to production. Any indigenous weapon will require many years of cyclic design evolution and flight testing to achieve credible reliability for operational use. Cloning a mature and proven foreign design avoids this pain.

To date indigenous Chinese cruise missiles have not matched the range performance of the Kh-55 series, this itself being a good incentive to reverse engineer the Russian design.

Iran's capacity to indigenously reverse engineer the Kh-55 is open to question. To date much of Iran's experience has been confined to component reverse engineering, rather than complete systems engineering. The Shahab 3 series are licenced DPRK designed No Dongs, similar to the Pakistani Ghauri II design. There is a large gap between reverse engineering individual components, or licence assembling proven designs, in comparison with tearing down a design and re-engineering it from the ground up.

The same could not be said for the DPRK, which has proven quite competent at evolving Russian IRBM designs, and designing and manufacturing often complex guidance and propulsion components.

The Sankei Shimbun claims by Japanese sources should thus be taken seriously. Given the well documented earlier collaboration between Iran and the DPRK on IRBM development and production, an analogous play using reverse engineered Kh-55s is entirely credible. Iran has oil derived funds and the DPRK has integration expertise. Neither of the these nations has good access to alternative sources.

Given the prospect of Iran acquiring advice, engineering support, and components from China, Pakistan and the DPRK, recent claims that Iran intends to produce a Kh-55SM clone should not be dismissed.



http://www.strategycenter.net/research/pubID.112/pub_detail.asp

this the link if anybody wants to look, but how do guys past it in the way that when someone clicks it they go to the site.
 
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I personally really wanted to know what engine they are using for Babur and is it from US or China? or a JV?

Thats exactly what im interseted in aswell, Pakistan is producing UAV's but alot of them incorperate of-the-shelf components. Though there is always the chance of complete indegenisation and I know for a fact many Universities have researched for sub-systems in Babur. Not to mention that Pakistan had the added advantage of inspecting the Tomohawk up close. :police:
 
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I would love to know where it came from then..........And please don't wave China around because They are still developing their own system.

It doesn't make you smart by reinventing the wheel when you don't have to.

And at the end of the day, there is going to be a LACM in service.

You are a military man, take a impartial stance and lets talk the usual development time, testing, doctrine creation and induction for a cruise missile.
 
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