The Harpy drones designed to attack radar systems were used by the Indian armed forces to target enemy air defence systems in Pakistan.
Meanwhile, the Air Defence system at Lahore has been neutralised by Indian military drone action.
The Harpy is designed to attack radar systems and is optimised for the suppression of enemy air defences (SEAD) role. It carries a high-explosive warhead. Equipped with an Anti-Radiation (AR) seeker, HARPY can autonomously seek and strike emitting, high-value targets. The HARPY operates in deep strike missions lasting up to 9 hours, day and night, in all weather conditions, and in Global Navigation Satellite Systems (GNSS)-denied or contested battlefields.
HARPY is equipped to hunt–seek targets in a designated area, locate and identify their frequency, and autonomously pursue a strike from any direction, at shallow or steep dive profiles.
After India executed Operation Sindoor, in which nine terror sites deep inside Pakistan were destroyed, Pakistan attempted to engage a number of military targets on the night of May 7.
The military targets were engaged in Northern and Western India, including Awantipura, Srinagar, Jammu, Pathankot, Amritsar, Kapurthala, Jalandhar, Ludhiana, Adampur, Bhatinda, Chandigarh, Nal, Phalodi, Uttarlai, and Bhuj, using drones and missiles.These were neutralised by the Integrated Counter UAS Grid and Air Defence systems. The debris of these attacks is now being recovered from a number of locations that prove the Pakistani attacks.
Indian Air Force S-400 Sudarshan Chakra air defence missile systems were fired last night against targets moving towards India. The targets were successfully neutralised in the operation, multiple domain experts told ANI. An official Government confirmation is awaited.
This morning, the Indian Armed Forces targeted Air Defence Radars and systems at a number of locations in Pakistan. Indian response has been in the same domain with same intensity as Pakistan. It has been reliably learnt that an Air Defence system at Lahore has been neutralised.