Saturday, February 12, 2011

Arjun tank to get more Indian muscl

The Defence Research and Development Organisation (DRDO) will roll out a more potent and indigenised variant of the Arjun tank in three years. DRDO chief VK Saraswat said the German engine on the current version of the tank would be replaced by an Indian power plant and the new variant (Arjun
Mk-II) would have 90% indigenous component. The existing tank may be hailed as an indigenous project but imported items such as power pack, gunner's main sight and track account for 58% of the cost per tank. Saraswat, also the scientific adviser to the defence minister, told HT at Aero India-2011, "The new variant will have high indigenous quotient, except for some hydraulic and electronic systems. The tank should be ready in early 2014. It will feature several modifications including superior missile firing capabilities. "
The army raised its maiden armoured regiment equipped with Arjun tanks in May 2009, more than 35 years after the project was conceived. The army has so far placed an order for 248 tanks, each costing R16.8 crore. The Arjun was earlier plagued with problems concerning its fire control system, suspension and poor mobility due to its weight.
The army accepted the Arjun tank only after a third-party audit by an international tank maker roped in by the DRDO to endorse the battle-worthiness of the tank after extensive evaluations. The tank has been designed and developed by the DRDO and the Combat Vehicles Research and Development Establishment, Avadi.
Saraswat said the DRDO was laying the groundwork to develop future main battle tank. The tank would be lighter than the 60-tonne Arjun, he said. Currently, Russian T-90s and T-72s are the mainstay of India’s tank fleet.

India has technology to defend satellites: Saraswat

India did not believe in space wars but had all the technology required to integrate systems to defend its satellites, V K Saraswat, Scientific Advisor to the Defence Minister, said today.

"Our country does not have a policy to attack anybody in space. We don't believe in it. But as part of the Ballistic Missile Defence Programme, we have all the technology elements which are required to integrate a system through which we can defend our satellites or take care of future requirements."

As a country, "we do not believe in space wars", he said in response to a query whether India had anti-satellite weapon capabilities.

India did not have a formal anti-satellite weapon policy of attacking satellites in space, but was well geared in case of any eventuality, he told reporters here.

India to have satellite navigation system by 2015

Bangalore, Feb 11 (PTI) India will launch seven satellites in the next four to six years to develop its own version of the Global Positioning System (GPS) for enhancing surveillance capabilities and improving accuracy of its weapon systems.

The Indian Navigation System (INS) satellites would provide coverage over India's areas of interest for military purposes along with its civilian uses, IAF sources told PTI here.

Till now, India is dependent on the American GPS and has signed a deal with Russia for using their GLONAS system but having an indigenous system would guarantee the availability of system during crisis or conflicts.

Asked about similar developments in the neighbourhood, they said China was developing its own version of the GPS which will cover the whole globe.

"But we don't want to cover the whole world and want to focus on the region important for us," the sources said.

India's Boeing P-8I Moving Forward

BANGALORE, India - Boeing announced a number of milestones in India's P-8I program during the 2011 Aero India air show being held in Bangalore, India, from Feb. 9-13.
In 2010 Boeing completed the final design for the P-8I and began fabrication in December, said Leland Wright, Boeing's P-8I program manager. The first flight of the new aircraft is scheduled for the end of this year.
The aircraft is designed specifically for the Indian Navy for long-range maritime patrol and reconnaissance, he said. The aircraft is "designed specifically to integrate indigenous India equipment."
It is a military derivative of the Boeing 737-800 and a variant of the U.S. Navy's P-8A Poseidon. India is the first international customer for the P-8 and Leland expects other countries to express an interest in the platform in the future. Boeing projects the market for maritime patrol aircraft to be around 100 P-8s.
The contract with the Indian Navy is for eight aircraft, including an option for four additional platforms. Delivery of the first aircraft is expected in 2013, he said.
Leland did confirm that the Standoff Land Attack Missile-Expanded Response (SLAM-ER) system was not part of the deal, but Boeing has a license to export the cruise missile system to India should it opt for it in the future. Instead, the P-8I will carry four Harpoon anti-ship missiles.
Boeing is still identifying offset partners in India. So far Boeing has arranged offset supply agreements with Bharat Electronics, TATA Advanced Materials, Dynamatic Technologies Limited, Avantel and Hindustan Aeronautics Limited. Four additional offset contracts are being defined and the P-8I offset contract performance is on schedule, Leland said.

Seoul To Deploy New Shipboard Cruise Missile

SEOUL - South Korea's Navy will equip some of its Aegis destroyers with 500-kilometer cruise missiles by year's end, part of an effort to aim more precision-strike weapons at North Korea, a government source and the missile's manufacturer here said Feb. 8.
"We're considering equipping the KDX-II/III destroyers with the newly developed Cheonryong, as the missile could effectively strike key targets in the North, such as ground-to-ship missile bases," the source said.
A modified variant of the surface-to-surface Hyunmoo III-A ballistic missile, a ship-launched Cheonryong could hit North Korea's ground-to-ship missile bases and coastal artillery batteries should the North launch an attack again, a source said.
The missile was developed by the state-run Agency for Defense Development and LIG Nex1, a precision electronic weapons maker.
South Korea's Ministry of National Defense and Defense Acquisition Program Administration neither confirmed nor denied the missile's development or deployment.
An official at LIG Nex1 confirmed, however, that the production of the Hyunmoo III-A missile has begun.
The North has occasionally fired short-range surface-to-ship missiles, including ones believed to have been modified either from Silkworm or KN01 missiles, into the seas east and west of the Korean peninsula.
"Ship-to-ground missiles have a wider and more flexible range than ground-launched ones," the source said.
He said the Cheonryong could also be fitted to a 3,000-ton heavy attack submarine to be locally developed beginning in 2018. Three 3,000-ton submarines are scheduled to be built under the 2.5 trillion won ($2.2 billion) KSS-III project.
The South Korean Navy operates six 4,500-ton KDX-II and two 7,600-ton KDX-III Aegis-equipped destroyers. One more KDX-III is to be commissioned.
YTN, a local cable TV news channel, reported that the Cheonryong missile had already been modified to be installed on the Navy's 1,800-ton Type-214 submarines. The Navy has three and aims to launch six more Type-214s before 2020.
Last year, defense officials here revealed the development of the Hyunmoo III-C surface-to-surface ballistic missile with a maximum range of 1,500 kilometers, following the deployment of the 1,000-kilometer-range Hyunmoo III-B.
While the Hyunmoo I ballistic missile has a range of 180 kilometers and the Hyunmoo II a range of 300 kilometers, the Hynmoo III can reach China and parts of eastern Russia with a margin of error of 5 meters, aided by a Terrain Contour Matching system, according to the LIG Nex1 official.
The development of long-range cruise missiles doesn't violate international guidelines restricting Seoul's missile technology.
Under a 2001 agreement with the United States, South Korea restricts its missile capability to a range of 300 kilometers and a 500-kilogram payload to comply with the Missile Technology Control Regime (MTCR).
The regime only applies to high-velocity, free-flight ballistic missiles, so the South Korean military has instead deployed slower, surface-skimming cruise missile with ranges of 1,000 to 1,500 kilometers.
Against that backdrop, South Korea and the United States began consultations late last year on revising the decade-old guidelines.
Seoul wants to extend the missile range up to 1,000 kilometers to bring all of North Korean missile sites and key facilities within reach.
However, U.S. officials are cautious about the issue because Seoul's increased missile capability could cause a backlash from China and Japan, as well as North Korea, according to sources.
North Korea is believed to have more than 600 Scud missiles with a range of 320 to 500 kilometers, and 200 Rodongs with a range of 1,300 kilometers. It also is developing a 6,700-kilometer intercontinental ballistic missile (ICBM) that could reach part of the U.S. mainland.
In recent years, North Korea is reported to have established an Army division to take control of its 3,000-kilometer-range intermediate-range ballistic missiles (IRBMs), which could hit U.S. military installations in Japan and Guam.
The North deployed IRBMs in 2007 after it started developing a midrange ballistic missile in the late 1990s, according to Seoul's 2008 defense white paper.

GD Austrian Unit Discusses Pandur Sale to Kuwait

PARIS - Steyr Daimler Puch, the Austrian unit of General Dynamics Land Systems Europe, is in talks with the Kuwait National Guard for the sale of a new generation of its Pandur armored personnel carrier, an industry executive said.
The discussions are understood to be for several dozen units of the armored vehicle, which is available in six- and eight-wheel configurations in the Pandur II version. Steyr declined comment.
General Dynamics plans to present is Mowag Piranha armored vehicle at the IDEX show in Abu Dhabi, which opens Feb. 20.

India's Arms Lab Signs Cross-Border Deals

BANGALORE - India's defense research agency is continuing to reach out to other countries for joint projects.
At the Aero India show, the Defence Research and Development Organisation launched research into armament, avionics and life sciences with Britain, France, Italy, Russia, Spain, Ukraine and the United States, DRDO chief V K Saraswat told reporters Feb. 11.
"The thrust is to build defense technologies for tomorrow," Saraswat said. "Priority to build joint intellectual property rights with international partners will be yet another priority for DRDO."
Analysts called the moves part of the agency's long-term strategy to shed its closed-door approach and open ties with overseas defense majors and research entities.
Saraswat said DRDO already has 20 international joint defense research and development projects.
The DRDO chief also unveiled DRDO efforts to build a new supersonic missile. Ground testing has already been done on the scramjet-powered missile, which is meant to have a range of 30 kilometers, a top speed of Mach 5 and a first test flight in the middle of next year, he said.
DRDO is helping the Indian Space Research Organization develop ELINT and electro-optic pods for space.
Saraswat said he hoped that his $2 billion budget would rise next year to around $2.66 billion; the new figures are to be announced Feb. 28.
DRDO projects include the development of the naval version of the Light Aircraft (LCA), unmanned combat aerial vehicle, new-generation unmanned aerial vehicles, aerostat and medium combat aircraft. Future areas of interest include materials, avionics, structural systems, missiles and human resources.
"Cooperation at every level - local, national or global - is an absolute necessity for progress in technology, especially defense technology," Indian Defence Minister A K Antony said Feb. 7 in Bangalore.
The United States last month removed export curbs on DRDO's laboratories, including the Armament Research and Development Establishment, the Defense Research and Development Lab, the Missile Research and Development Complex and the Solid State Physics Laboratory.