|
New Delhi. Indian Scientist have successfully intercepted a ballistic
for the third time in actual firing tests, promoting confidence towards building
an indigenous ballistic missile shield beginning 2011. The interception
was conducted March 6th at the Integrated Test Range (ITR) at Wheeler island in
Orissa with the two-stage Interceptor missile scoring a direct hit on a Dhanush
missile at a height of 75 km. The Dhanush, a naval version of the Prithvi Missile
already in use by the armed forces, was fired from a ship to a mimic a hostile
target. Before its disintegration, it went to a height of 120 km. DRDO's
Chief Controller and Air Defence programme Director VK Saraswat told newsmen after
the test that India would need a multi-layer approach to neutralize hostile ballistic
missiles at different ranges and heights, and that indigenous building blocks
were already in place. "But there would have to be more tests"
towards building the Anti Ballistic Missile (ABMs). By 2010, the Defence Research
and Development Organisation (DRDO) would conduct atleast five more endo-and-exo
atmospheric tests, including in this year, to validate the indigenous technology,
and then it would be up to the government to order the induction of the system
by the country's strategic forces. Asked if a single missile would be sufficient
to neutralize a single hostile target, he said that there had to be multiple engagements.
Sometimes, one would need to launch a proximity fuse ABM and sometimes a direct
hit ABM, and sometime both. The ABM with proximity fuse would explode within five
metres of reaching a target. Defence Minister A K Antony has congratulated
DRDO, which has already conducted two interception trials, first in exo-atmospheric
region at 48 Km altitude on 27th November 2006 and second in endo-atmospheric
region at 15 km using Advanced Air Defence (AAD) missile on 06 Dec 2007. Dr
Saraswat said that tests in future would cover attacking multiple targets at different
heights. “All the building blocks of the BMD are ready at the moment. Only
part that remains to be developed is the interceptor missile and by the time they
are in place, we will have our full mechanism in place. We have a programme till
2011 to complete this,” he said, pointing out that the process of refining the
indigenous capability would continue. “But the technology we have is robust,”
and there was no need to import any system. “Different countries develop their
capabilities according to their own needs, and in the same way, India needs to
develop what is required according to the hostile environment around us,” he said.
Dr Sarawat said that the interception test achieved “all the mission parameters”
and that as soon as the milestone was achieved, there was joy in the scientific
community. DRDO chief M Natarajan and senior defence officials were present to
witness the test, conducted at 1624 hours. Video footage of the engagement
and destruction of the Dhanush missile by the Interceptor was presented before
the media. Dhanush was fired from a mobile launcher (a ship some 100 km off the
Orissa coast) in the Bay of Bengal. Significantly, said Dr Saraswat, the
Interception missile was built with (mostly) Indian components, and that they
were well advanced in technology. DRDO though is known to use Commercially
Available Off the Shelf Components (COTS) both from India and abroad, but in the
recent past, private sector Indian companies have been involved in their manufacture.
A key component of the missile programme is the homing or seeker technology,
and DRDO is laying emphasis on achieving self-sufficiency in this. Notably, many
countries have also offered to share sophisticated anti-missile technology with
India. Dr Saraswat said that the new seeker in the Interceptor enabled
the missile to match the maneuvers of a hostile missile – like the zig zag movement
of the Russian Topol missile. DRDO, known in the past for delayed programmes,
has shown remarkable progress in missile technologies, and nearly all its tests,
and resultant missiles, are being successfully deployed. Nonetheless, for such
a serious programme as building a missile defence shield, it would have to conduct
many tests and maybe acquire some sophisticated systems from outside, now that
the technology denial regime against India has eased after the nuclear deal. According
to Dr Saraswat, the Interceptor warhead weiged just 30 kg but generated an impact
of a 150 kg omni-directional warhead. The system had been modified and we “provided
it with higher energy, an improved guidance and control system and on top of it
all, we have integrated a Gimbaled Directional Warhead with it.” Pointing
out that in a missile threat scenario, defensive action has to be super fast,
and accordingly, the Interception system is fully automated, requiring no human
intervention. “Under the present system, the interceptor missiles are on
‘Hot Stand-by mode’ and can take-off within 120 seconds of the detection of the
incoming missile by the tracking radars,” he said adding that it automatically
keeps track of the target and calculates the best possible point to destroy it.
In the overall process of tracking, airborne and ground-based radars would
play an important role to update the Interceptor about its target. This data link
is vital, and the only one, and nearly impossible to jam. Effective counter-measures
against jamming are already incorporated. Dr Saraswat also said that given
government clearance, DRDO could work on developing hypersonic interceptors with
six to seven times the speed of sound to neutralize longrange hostile missiles
with a range of 5000-6000 km. | 
