A New Generation Anti Radiation Missile (NGARM), RudraM-I, was successfully flight-tested by the Defence Research and Development Organisation (DRDO).
Try this MCQ:
Q.The RudraM-I recently seen in news is an:
Ans: Anti-satellite missile/ Anti-radiation Missile/ Anti-tank mine/ Submarine Torpedo
RudraM-I
- RudraM-I is an anti-radiation missile can locate and target any radiation-emitting source like enemy radars, communication sites and other Radio Frequency (RF) emitting targets.
- It is being developed by Defence Research Development Laboratory (DRDL), Hyderabad, as the nodal agency.
- It is a joint effort involving several DRDO labs, the IAF, the Hindustan Aeronautics Limited (HAL) and several public and private sector enterprises.
- This is the first indigenous anti-radiation missile of the country. It has a range of up to 200 km depending upon the launch conditions.
- It can be launched from altitudes of 500 m to 15 km and speeds of 0.6 to 2 mach.
- It can play a key role in neutralizing any jamming platforms of the enemy or take out radar stations thereby clearing a path for own fighters to carry out an offensive and also prevent own systems from being jammed.
How does it work?
- Anti-radiation missiles are designed to detect, track and neutralize the adversary’s radar, communication assets and other radio frequency sources, which are generally part of their air defence systems.
- Such a missile’s navigation mechanism comprises an inertial navigation system — a computerised mechanism that uses changes in the object’s own position — coupled with GPS, which is satellite-based.
- For guidance, it has a “passive homing head” — a system that can detect, classify and engage targets (radio frequency sources in this case) over a wide band of frequencies as programmed.
- Once the RudraM missile locks on the target, it is capable of striking accurately even if the radiation source switches off in between.
