Methods and apparatus for determining angle of arrival (AOA) in a radar warning receiver

What is claimed is: 1. A method, comprising: receiving signals from an emitter on a plurality of antennas of a radar warning receiver system; determining an angle of arrival of the received signals from the emitter from first and second ones of the plurality of antennas; determining a range for the emitter from a strength of the signals from the first and second ones of the plurality of antennas; receiving navigational information for a vehicle to which the radar warning receiver is attached, the navigational information including aircraft attitude information; combining, using a computer processor, the aircraft attitude information with the range and the angle of arrival to determine a position of the emitter in three dimensions; using navigation data to stabilize the three-dimensional emitter position against aircraft position changes; applying tracking to the successive three-dimensional emitter location estimates to generate at least one track of position for the emitter; using the at least one track when information from the radar warning receiver is not available; and transforming the at least one track into angle of arrival data. 2. The method according to claim 1 , further including using Kalman tracking. 3. The method according to claim 1 , further including using Least Squares Optimum tracking. 4. The method according to claim 1 , further including using Simplex tracking. 5. The method according to claim 1 , further including selectively using a range value corresponding to an emitter distance no greater than a preset limit, nor greater than a horizon distance determined by aircraft altitude. 6. The method according to claim 1 , further including using a tracker to process a moving emitter in three position coordinates and at least one velocity coordinate. 7. The method according to claim 1 , further including using angle of elevation data to limit tracking updates to a preset limit. 8. The method according to claim 1 , further including tracking in three Cartesian coordinates that correspond to the coordinate axes of the aircraft navigation system. 9. The method according to claim 1 , further including estimating an altitude of the emitter to determine the three-dimensional tracking. 10. An article, comprising: a non-transitory storage medium containing stored instructions that enable a machine to: receive signals from an emitter on a plurality of antennas of a radar warning receiver system; determine an angle of arrival of the received signals from the emitter from first and second ones of the plurality of antennas; determine a range for the emitter from a strength of the signals from the first and second ones of the plurality of antennas; receive navigational information for a vehicle to which the radar warning receiver is attached, the navigational information including aircraft attitude information; combine the aircraft attitude information with the range and the angle of arrival to determine a position of the emitter in three dimensions; use navigation data to stabilize the three-dimensional emitter position against aircraft position changes; apply tracking to the successive three-dimensional emitter location estimates to generate at least one track of position for the emitter; use the at least one track when information from the radar warning receiver is not available; and transforming the at least one track into angle of arrival data. 11. The article according to claim 10 , further including instructions for using Kalman tracking. 12. The article according to claim 10 , further including instructions for selectively using a range value corresponding to an emitter distance no greater than a preset limit, nor greater than a horizon distance determined by aircraft altitude. 13. The article according to claim 10 , further including instructions for using a tracker to process a moving emitter in three position coordinates and at least one velocity coordinate. 14. The article according to claim 10 , further including instructions for using angle of elevation data to limit tracking updates to a preset limit. 15. The article according to claim 10 , further including instructions for tracking in three Cartesian coordinates that correspond to the coordinate axes of the aircraft navigation system. 16. The article according to claim 10 , further including instructions for estimating an altitude of the emitter to determine the three-dimensional tracking. 17. A system, comprising: a plurality of antennas of a radar warning receiver system to receive signals from an emitter; a radar warning system including a memory and a processor configured to: determine an angle of arrival of the received signals from the emitter from first and second ones of the plurality of antennas; determine a range for the emitter from a strength of the signals from the first and second ones of the plurality of antennas; receive navigational information for a vehicle to which the radar warning receiver is attached, the navigational information including aircraft attitude information; combine the aircraft attitude information with the range and the angle of arrival to determine a position of the emitter in three dimensions; use navigation data to stabilize the three-dimensional emitter position against aircraft position changes; apply tracking to the successive three-dimensional emitter location estimates to generate at least one track of position for the emitter; use the at least one track when information from the radar warning receiver is not available; and transforming the at least one track into angle of arrival data.