Government approves ‘Gagan’ Project for Seamless Navigation over Indian Airspace

The Government today has approved the Airports Authority of India (AAI) and ISRO’s proposal for the implementation of the GPS Aided Geo Augmented Navigation (GAGAN) project for seamless navigation over Indian airspace at an estimated cost of Rs.774 crores. Ex-post facto approval has also been given to the amount of Rs.148 crores already spent in the first phase of the project. With this, India will be the fourth country in the world to have a satellite based navigation system.
The management of airspace is a sovereign function which has been assigned to the AAI. The AAI presently uses ground based terrestrial navigation system for providing safe navigation over the Indian airspace. This system however, has site limitations and range problems.
To overcome the limitations of ground based navigation systems, the ICAO in 1993, endorsed a Global Satellite Navigation System as a future Air Navigation System for Aviation. Following this, the AAI and ISRO entered into an MoU in 2001 for the implementation of the GAGAN project for seamless navigation over Indian airspace.
The uncertainties in the position accuracies available through the core GPS are due to the Ionospheric delays, satellite ephemeris and clock errors. In order to provide enhanced accuracies with integrity, reliability and continuity, it is essential to have an augmentation system capable of collecting data in two frequencies over the service area, separate these errors at the master control center and communicate and correct message to the aviation user in the frequency as that of the core GPS. To achieve this, an SBAS consisting of a geo-stationary space segment for the core constellation, a ground segment consisting of reference stations, the master control center and an uplink earth station are required. The reference stations collect dual frequency data, which is communicated to the master control center. At the master control center, the errors are separated and the corrected navigation message is sent to the navigation transponder on board the geo stationary satellite, which translates it to the user GPS civil frequency. The GAGAN system proposes to augment the GPS data with the help of a geo stationary satellite to be launched by ISRO and the ground based infrastructure of reference stations, uplink earth stations and master control center created by the AAI.
The implementation of the GAGAN programme is being realized in two phases.
The project cost is approximately Rs.774 crores of which Rs.148 crores was spent in the TDS phase and Rs.626 crores is to be spent in the FOP phase. Of this, the AAI contribution is expected to Rs.596 crores (from internal resources), and ISRO’s contribution will be Rs.178 crores (from ISRO Budget). The AAI has already spent Rs.100 crores and ISRO Rs.48 crores in the TDS phase, and are expected to spend Rs.496 crores and Rs.130 crores respectively in the FOP phase. The TDS phase was taken up on experimental basis and it is only upon the successful completion of this phase that the entire project is being taken up. The expenditure of Rs.148 crores in the TDS phase was within the delegated powers of AAI.
The project GAGAN, which involves development of indigenous technology in frontier areas, is expected to yield the following benefits:
• Enable aircraft to navigate on a straight path/route instead of navigating in a zig-zag path over land based stations.
• Provide coverage of oceanic areas which is not possible by terrestrial systems.
• Improve efficiency and flexibility by increasing use of operator-preferred trajectories at all altitudes.
• Increase safety by using three dimensional (3D) approach operations- enabling multiple approach capability.
• Improve airport and airspace access in all weather conditions.
• Enhance reliability and reduces delays.
• Reduce workload and improves productivity of air traffic controllers.
• Provide uniform and accurate levels of navigation performance over the entire airspace.
• • Achieve greater runway capability.
• Provide fuel-efficient air corridors.
• Help in gradual phasing out of terrestrial navigation aids.
• Assist in Upper Air-space management.
• Provide CAT-I approaches without ground element support.
11/09/08 Press Information Bureau

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Categories: Airports Sep 2008, New Sep 2008