IndiGo becomes first airline to land aircraft using indigenous navigation system GAGAN
PTI, Apr 28, 2022, 2:46 PM IST
IndiGo became the first airline in the country to land aircraft using the indigenous navigation system GAGAN, according to a statement issued on Thursday.
The flight was conducted using an ATR-72 aircraft and landed at the Kishangarh airport in Rajasthan on Wednesday morning, using GPS-aided geo-augmented navigation (GAGAN), which has been jointly developed by the Centre-run Airports Authority of India (AAI) and the Indian Space Research Organisation (ISRO), the statement issued by IndiGo said.
GAGAN is used to provide lateral and vertical guidance when an aircraft is approaching a runway for landing. Its precision is especially useful at small airports where the instrument landing system (ILS) has not been installed.
”In India’s civil aviation sector, GAGAN will modernize the airspace, reduce flight delays, save fuel and improve flight safety,” the statement said.
The Directorate General of Civil Aviation (DGCA) has issued a mandate for all aircraft registered in India after July 1, 2021 to be fitted with GAGAN equipment, it added.
Udayavani is now on Telegram. Click here to join our channel and stay updated with the latest news.
Top News
Related Articles More
Scribe throws lapel microphone towards Sharad Pawar in Baramati; cops give clean chit
India delivers first batch of BrahMos missiles to Philippines
Air India cancels Dubai flights due to operational disruptions
2 Indian students killed in Scottish waterfall accident
Lok Sabha Elections 2024: Zero voter turnout in 6 Nagaland districts amid shutdown call by ENPO over separate territory demand
MUST WATCH
Latest Additions
Injuries don’t define you: Mohammed Shami shares rehab update
Shivakumar desperately wants to become CM, says K’taka BJP chief Vijayendra
Scribe throws lapel microphone towards Sharad Pawar in Baramati; cops give clean chit
India delivers first batch of BrahMos missiles to Philippines
Air India cancels Dubai flights due to operational disruptions