Position determination systems and methods for a plurality of aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G08G-005/00
G08G-005/04
출원번호
US-0968300
(2013-08-15)
등록번호
US-9355564
(2016-05-31)
발명자
/ 주소
Tyson, Stephen E.
Scott, Rob P.
Ayala, Marc
출원인 / 주소
Rockwell Collins, Inc.
대리인 / 주소
Gerdzhikov, Angel N.
인용정보
피인용 횟수 :
2인용 특허 :
4
초록▼
Systems and methods for use in navigating aircraft are provided. A method includes transmitting messages from a plurality of aircraft within time slots of a data transmission using a data link radio of each of the aircraft. The time slots of the data transmission are divided by time. The master airc
Systems and methods for use in navigating aircraft are provided. A method includes transmitting messages from a plurality of aircraft within time slots of a data transmission using a data link radio of each of the aircraft. The time slots of the data transmission are divided by time. The master aircraft transmits a message within a first time slot. Each message includes position data, time data, aircraft orientation data, and intended flight path data for the aircraft transmitting the message. The method further includes, for each of the plurality of aircraft, receiving a plurality of received messages transmitted by the other aircraft within the data transmission, and generating a representation of an environment around the aircraft based on the data within the received messages. The representation includes a current position and an intended path for one or more of the other aircraft.
대표청구항▼
1. A method for use in navigating a plurality of aircraft, the method comprising: identifying one of the plurality of aircraft as a master aircraft;receiving a plurality of messages from the plurality of aircraft within a plurality of time slots of a data transmission using a data link radio of each
1. A method for use in navigating a plurality of aircraft, the method comprising: identifying one of the plurality of aircraft as a master aircraft;receiving a plurality of messages from the plurality of aircraft within a plurality of time slots of a data transmission using a data link radio of each of the plurality of aircraft, wherein the time slots of the data transmission are divided by time such that each of the plurality of aircraft transmits a message within a separate time slot of the data transmission, wherein the master aircraft transmits a message within a first time slot of the plurality of time slots, wherein the message transmitted by the master aircraft is configured to resynchronize the plurality of aircraft, and wherein each message comprises position data, time data including an associated time stamp indicating the time at which data in the message was collected, aircraft orientation data, and intended flight path data for the aircraft transmitting the message, the intended flight path data comprising an energy state for the aircraft transmitting the message; wherein the energy state comprises acceleration/deceleration of airspeed with respect to desired position and throttle setting required to achieve the position; and generating a representation of an environment around the aircraft based on the position data, time data, aircraft orientation data, and intended flight path data comprising the energy state within the received messages, wherein the representation comprises a current position and an intended path including an indication of an energy state for one or more of the other aircraft. 2. The method of claim 1, wherein the data link radio is a bi-directional data link radio. 3. The method of claim 1, wherein the position data transmitted by at least one of the plurality of aircraft comprises both an absolute position of the aircraft and a relative position of the aircraft with respect to at least one other aircraft of the plurality of aircraft. 4. The method of claim 1, wherein the representation further comprises a current orientation for the one or more of the other aircraft. 5. The method of claim 1, further comprising transmitting the representation to a display device for display to a pilot of the aircraft. 6. The method of claim 5, wherein the display device comprises one of a helmet mounted display, a heads up display, or a heads down display. 7. The method of claim 6, wherein the display device comprises a helmet mounted display, and wherein the helmet mounted display is configured to display a view of the environment relative to motion of a head of the pilot in response to receiving the representation. 8. The method of claim 1, further comprising transmitting from the master aircraft one or more messages using unused time slots within the data transmission, the one or more messages including at least one of weather hazards or terrain hazards within proximity of a flight path of one or more of the plurality of aircraft. 9. The method of claim 1, further comprising transmitting at least one of the data transmission and the representation to a remote computing device configured to allow a pilot to navigate one or more of the plurality of aircraft from a remote location. 10. The method of claim 1, wherein the plurality of aircraft comprise one or more unmanned aircraft, wherein the one or more unmanned aircraft are configured to navigate based at least in part on a three-dimensional database stored in a memory of the unmanned aircraft, and wherein each of the one or more unmanned aircraft is configured to update information in the three-dimensional database based on the messages within the data transmission. 11. The method of claim 1, wherein the plurality of aircraft comprise a plurality of rotary wing aircraft, and wherein each of the plurality of rotary wing aircraft is configured to utilize the representation to maintain a safe distance from others of the plurality of rotary wing aircraft. 12. The method of claim 1, wherein each of the plurality of aircraft is configured to utilize the representation to navigate the aircraft within an approximate formation position of a predetermined position with respect to others of the plurality of aircraft. 13. The method of claim 1, wherein the plurality of aircraft are configured to utilize the representation to navigate during an in-air refueling of one or more of the plurality of aircraft. 14. The method of claim 13, wherein transmitting the plurality of messages within the plurality of time slots of the data transmission comprises transmitting one or more messages including position data for refueling equipment, wherein the refueling equipment comprises a boom and a receptacle or a probe and a drogue, and wherein generating the representation of the environment around the aircraft comprises generating a representation of a current position of the refueling equipment based on the position data for the refueling equipment obtained from the data transmission. 15. A system for use in navigating an aircraft, the system comprising: a data link radio; andan electronic processor configured to: transmit a message within one of a plurality of time slots of a data transmission using the data link radio, wherein the aircraft is one of a plurality of aircraft, wherein other aircraft of the plurality of aircraft are configured to transmit messages in other time slots of the plurality of time slots of the data transmission, wherein the time slots of the data transmission are divided by time such that each of the plurality of aircraft transmits a message within a separate time slot of the data transmission, wherein a master aircraft of the plurality of aircraft transmits a message within a first time slot of the plurality of time slots, wherein the message transmitted by the master aircraft is configured to resynchronize the plurality of aircraft, and wherein each message comprises position data, time data including an associated time stamp indicating the time at which data in the message was collected, aircraft orientation data, and intended flight path data for the aircraft transmitting the message, the intended flight path data comprising an energy state for the aircraft transmitting the message, wherein the energy state comprises acceleration/deceleration of airspeed with respect to desired position and throttle setting required to achieve the position;receive a plurality of received messages transmitted by the other aircraft of the plurality of aircraft within the data transmission; andgenerate a representation of an environment around the aircraft based on the position data, time data, aircraft orientation data, and intended flight path data comprising the energy state within the received messages, wherein the representation comprises a current position and an intended path including an indication of an energy state for one or more of the other aircraft. 16. The system of claim 15, wherein the data link radio is a bi-directional data link radio. 17. The system of claim 15, wherein the intended flight path data comprises at least one of a velocity vector and a flight path marker. 18. The system of claim 15, wherein the electronic processor is further configured to transmit the representation to a display device for display to a pilot of the aircraft, wherein the display device comprises one of a helmet mounted display, a heads up display, or a heads down display. 19. The system of claim 15, wherein the electronic processor is further configured to transmit from the master aircraft one or more messages using unused time slots within the data transmission, the one or more messages including at least one of weather hazards or terrain hazards within proximity of the aircraft. 20. The system of claim 15, wherein the electronic processor is further configured to transmit at least one of the data transmission and the representation to a remote computing device configured to allow a pilot to navigate the aircraft from a remote location. 21. The system of claim 15, wherein the aircraft is an unmanned aircraft, wherein the unmanned aircraft is configured to navigate based at least in part on a three-dimensional database stored in a memory of the unmanned aircraft, and wherein the unmanned aircraft is configured to update information in the three-dimensional database based on the messages within the data transmission. 22. The system of claim 15, wherein the plurality of aircraft comprise a plurality of rotary wing aircraft, and wherein the representation generated by the electronic processor is configured to assist a pilot in maintaining a safe distance from others of the plurality of rotary wing aircraft. 23. The system of claim 15, wherein the representation generated by the electronic processor is configured to assist a pilot in navigating the aircraft within an approximate formation position of a predetermined position with respect to others of the plurality of aircraft. 24. The system of claim 15, wherein the representation generated by the electronic processor is configured to assist a pilot in navigating the aircraft during an in-air refueling of one or more of the plurality of aircraft. 25. The system of claim 24, wherein the plurality of messages transmitted within the plurality of time slots of the data transmission comprises one or more messages including position data for refueling equipment, wherein the refueling equipment comprises a boom and a receptacle or a probe and a drogue, and wherein the electronic processor is configured to generate the representation to include a current position of the refueling equipment based on the position data for the refueling equipment obtained from the data transmission. 26. One or more computer-readable storage media having instructions stored thereon, the instructions being executable by one or more processors of an aircraft to: transmit a message within one of a plurality of time slots of a data transmission using a data link radio, wherein the aircraft is one of a plurality of aircraft, wherein other aircraft of the plurality of aircraft are configured to transmit messages in other time slots of the plurality of time slots of the data transmission, wherein the time slots of the data transmission are divided by time such that each of the plurality of aircraft transmits a message within a separate time slot of the data transmission, wherein a master aircraft of the plurality of aircraft transmits a message within a first time slot of the plurality of time slots, wherein the message transmitted by the master aircraft is configured to resynchronize the plurality of aircraft, and wherein each message comprises position data, time data including an associated time stamp indicating the time at which data in the message was collected, aircraft orientation data, and intended flight path data comprising an energy state for the aircraft transmitting the message, wherein the energy state comprises acceleration/deceleration of airspeed with respect to desired position and throttle setting required to achieve the position;receive a plurality of received messages transmitted by the other aircraft of the plurality of aircraft within the data transmission; andgenerate a representation of an environment around the aircraft based on the position data, time data, aircraft orientation data, and intended flight path data comprising an energy state within the received messages, wherein the representation comprises a current position and an intended path for one or more of the other aircraft. 27. The one or more computer-readable storage media of claim 26, wherein the data link radio is a bi-directional data link radio. 28. The one or more computer-readable storage media of claim 26, wherein the plurality of aircraft comprise a plurality of rotary wing aircraft, and wherein the representation generated by the one or more processors is configured to assist a pilot in maintaining a safe distance from others of the plurality of rotary wing aircraft. 29. The one or more computer-readable storage media of claim 26, wherein the representation generated by the one or more processors is configured to assist a pilot in navigating the aircraft within an approximate formation position of a predetermined position with respect to others of the plurality of aircraft. 30. The one or more computer-readable storage media of claim 26, wherein the representation generated by the one or more processors is configured to assist a pilot in navigating the aircraft during an in-air refueling of one or more of the plurality of aircraft. 31. The one or more computer-readable storage media of claim 26, wherein the plurality of messages transmitted within the plurality of time slots of the data transmission comprises one or more messages including position data for refueling equipment, wherein the refueling equipment comprises a boom and a receptacle or a probe and a drogue, and wherein the one or more processors are configured to generate the representation to include a current position of the refueling equipment based on the position data for the refueling equipment obtained from the data transmission.
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이 특허에 인용된 특허 (4)
Burdoin Robert B. (Salt Lake City UT) Moolenijzer Nicolaas J. (Sandia Park NM) Strohacker Fred M. (Albuquerque NM), Airborne drone formation control system.
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