Apparatus and method using relative GPS positioning for aircraft precision approach and landing
First Claim
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1. A navigation system for an aircraft, comprising:
- a ground station comprising;
a first navigation receiver coupled to an antenna to receive satellite navigation signals transmitted from a plurality of satellites, said first navigation receiver generating pseudorange data corresponding to each of said plurality of satellites;
a ground station processor for processing the pseudorange data and offset data identifying the location of the ground station relative to an aircraft runway touchdown position, said processor generating a ground station data message;
a data input interface for inputting the offset data to the ground station processor;
an encoder for encoding the ground station data message;
a datalink transmitter coupled to said encoder and to a datalink antenna for transmitting the encoded ground station data message over a datalink; and
an airborne station aboard the aircraft comprising;
a second navigation receiver coupled to an antenna to receive satellite navigation signals transmitted from a plurality of satellites;
a datalink receiver coupled to an antenna for receiving the encoded ground station data message over the datalink;
a decoder for decoding the encoded ground station data message received via the datalink; and
an airborne station processor coupled to said decoder for calculating a relative position of the ground station using the decoded ground station data message and a relative position of the aircraft using the satellite navigation signals received by the second navigation receiver, said airborne station processor generating a relative position vector corresponding to the position of the aircraft relative to a reference point, said airborne station processor generating the relative position vector from the offset data and from the relative positions of the ground station and the aircraft, and said airborne station processor computing guidance information from the relative position vector.
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Abstract
A relative GPS landing system is provided for approach and landing of aircraft where an accurate site survey of the GPS platform is unavailable. Data containing information on all GPS satellites in view is uplinked from a ground station to an aircraft. A relative solution is derived at the aircraft. Based upon the calculated solution, aircraft guidance signals are generated for approach and landing of the aircraft at a desired point.
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Citations
21 Claims
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1. A navigation system for an aircraft, comprising:
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a ground station comprising; a first navigation receiver coupled to an antenna to receive satellite navigation signals transmitted from a plurality of satellites, said first navigation receiver generating pseudorange data corresponding to each of said plurality of satellites; a ground station processor for processing the pseudorange data and offset data identifying the location of the ground station relative to an aircraft runway touchdown position, said processor generating a ground station data message; a data input interface for inputting the offset data to the ground station processor; an encoder for encoding the ground station data message; a datalink transmitter coupled to said encoder and to a datalink antenna for transmitting the encoded ground station data message over a datalink; and an airborne station aboard the aircraft comprising; a second navigation receiver coupled to an antenna to receive satellite navigation signals transmitted from a plurality of satellites; a datalink receiver coupled to an antenna for receiving the encoded ground station data message over the datalink; a decoder for decoding the encoded ground station data message received via the datalink; and an airborne station processor coupled to said decoder for calculating a relative position of the ground station using the decoded ground station data message and a relative position of the aircraft using the satellite navigation signals received by the second navigation receiver, said airborne station processor generating a relative position vector corresponding to the position of the aircraft relative to a reference point, said airborne station processor generating the relative position vector from the offset data and from the relative positions of the ground station and the aircraft, and said airborne station processor computing guidance information from the relative position vector. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A relative positioning system for use on an aircraft for approach and landing on a runway and touchdown at a desired touchdown point, the positioning system comprising:
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a navigation receiver coupled to an antenna to receive satellite navigation signals transmitted from a plurality of satellites; a data link receiver coupled to an antenna to receive a TACAN/DME datalink signal from a ground station, said TACAN/DME datalink signal including position information and offset information, said position information generated by the ground station from satellite navigation signals and said offset information representing the position offset of the desired touchdown point relative to the ground station; a processor for calculating from the TACAN/DME datalink signal a relative position of the ground station and for calculating a relative position of the aircraft from the satellite navigation signals received by the navigation receiver, said processor generating a relative position vector from the offset information and the relative positions of the ground station and the aircraft, the relative position vector defining the distance and direction of the aircraft from the desired touchdown point.
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19. A method for aircraft approach and landing using relative positioning, comprising the steps of:
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receiving satellite navigation signals at a ground station and at an aircraft; computing pseudorange data for the ground station using the satellite navigation signals received at the ground station to generate a set of ground station pseudorange data; monitoring the integrity of the ground station pseudorange data; transmitting ground station site information and the set of ground station pseudorange data from the ground station to the aircraft, the site information including offset information relating to the position offset of a desired landing approach reference point relative to the ground station; computing pseudorange data for the aircraft using the satellite signals received at the aircraft; monitoring the integrity of aircraft pseudorange data; determining a satellite position relative to the aircraft for each of the satellites from ephemeris data contained within the satellite signals; selecting a group of satellites to be used in calculating a relative position and a clock bias of the ground station and a relative position and a clock bias of the aircraft; calculating at the aircraft the relative position and the clock bias of the ground station and the relative position and clock bias of the aircraft from the pseudorange data corresponding to the selected group of satellites; determining a relative position vector from the offset information and the relative positions of the ground station and the aircraft, said relative position vector defining the position of the aircraft relative to the desired landing approach reference point; and generating guidance information using the relative position vector for approach and landing of the aircraft.
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20. A method for aircraft approach and landing using relative positioning, comprising the steps of:
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receiving satellite navigation signals at a ground station and at an aircraft; computing pseudorange data using the satellite navigation signals received at the ground station at a time "t" to generate a set of ground station pseudorange data; selecting a common group of satellites for use by the ground station and for use by the aircraft in calculating relative position data for the ground station and for the aircraft; calculating at the ground station relative position data for the ground station from the set of ground station pseudorange data; transmitting ground station site information and the relative position data for the ground station from the ground station to the aircraft, said ground station site information including offset information defining the offset position of a desired reference point relative to the ground station; receiving the ground station site information and the relative position data for the ground station at the aircraft; computing pseudorange data using the satellite signals received at the aircraft at the time "t" to generate a set of aircraft pseudorange data; calculating at the aircraft relative position data for the aircraft from the set of aircraft pseudorange data; determining a relative position vector from the offset information, the ground station relative position data, and the aircraft relative position data, said relative position vector defining the position of the aircraft relative to the desired reference point; and generating guidance information using the relative position vector for approach and landing of the aircraft. - View Dependent Claims (21)
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Specification