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Dynamic wake prediction and visualization with uncertainty analysis

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G08B-023/00
  • G08G-005/04
출원번호 US-0440491 (2003-05-15)
발명자 / 주소
  • Holforty, Wendy L.
  • Powell, J. David
출원인 / 주소
  • The Board of Trustees of the Leland Stanford Junior University
  • The United States of America as represented by the Administrator of the National Aeronautics and Space Administration
대리인 / 주소
    Lumen Intellectual Property Services, Inc.
인용정보 피인용 횟수 : 40  인용 특허 : 10

초록

A dynamic wake avoidance system utilizes aircraft and atmospheric parameters readily available in flight to model and predict airborne wake vortices in real time. A novel combination of algorithms allows for a relatively simple yet robust wake model to be constructed based on information extracted f

대표청구항

1. A method for dynamic wake prediction and visualization comprising the steps of:obtaining aircraft data and atmospheric data continuously in essentially real time; extracting parameters from said aircraft data and said atmospheric data; determining a nominal wake model with said parameters; analyz

이 특허에 인용된 특허 (10)

  1. Watnick Marshall, Aircraft wake vortex hazard warning apparatus.
  2. Zheng L. Lucy ; Burne Richard, Apparatus and method for determining wind profiles and for predicting clear air turbulence.
  3. Eberwine David Brent ; Eberwine Mark Alan, Integrated air traffic management and collision avoidance system.
  4. William L. Rubin, Method and apparatus for measuring velocity and turbulence of atmospheric flows.
  5. Wang Ting-I, Optical scintillometer wake vortex detection system.
  6. Robert O. Baron ; Gregory S. Wilson ; Ronald J. Phillips ; Tom S. Thompson ; Brian Patrick Davis, Real-time three-dimensional weather data processing method and system.
  7. Beasley Graham D., System and method for creating visual images of aircraft wake vortices.
  8. Gordon Andrew A. (5193 Woodley Ave. Encino CA 91436), System for detecting and viewing aircraft-hazardous incidents that may be encountered by aircraft landing or taking-off.
  9. Hallock James N. (Waltham MA) Spitzer Edward A. (Natick MA) Wood William D. (Sudbury MA), Vortex advisory system.
  10. Cabot Michael A. ; Chiang Nam Q., Wake turbulence warning and caution system and method.

이 특허를 인용한 특허 (40)

  1. Shmilovich, Arvin; Yadlin, Yoram; Clark, Roger W., Active systems and methods for controlling an airfoil vortex.
  2. O'Connor, Daniel; Cervia, Bruno; Milns, Robert; Gibson, Paul, Aircraft communication system.
  3. Offer, Brad W.; Parks, Paul Clark; Bruce, Alan Eugene; Spinelli, Charles B.; Reid, Travis S., Aircraft emergency landing route system.
  4. Simon, Jeffrey M., Aircraft traffic awareness system and methods.
  5. Herder, Andrew J., Aircraft wake turbulence awareness.
  6. Brandao, Ruy C.; Weber, Rosa Maria Nicole; True, Willard R.; Olive, Michael L.; Haissig, Christine Marie, Automated decision aid tool for prompting a pilot to request a flight level change.
  7. Brinkman, Ron; Langdon, Pat, Avionics display system and method for generating flight information pertaining to neighboring aircraft.
  8. Brinkman, Ron, Avionics display system and method for generating three dimensional display including error-compensated airspace.
  9. Yannone, Ronald M., Determining at least one coordinate of an object using intersecting surfaces.
  10. Spinelli, Charles B.; Offer, Bradley William; Bruce, Alan Eugene; Lusardi, Robert; Cuspard, Steven Furman, Determining landing sites for aircraft.
  11. Spinelli, Charles B., Determining suitable areas for off-airport landings.
  12. Krupansky, Petr; Neuzil, Tomas; Gelnarova, Eva; Herodes, Martin; Svoboda, Jiri, Enhanced prediction of atmospheric parameters.
  13. Baranov, Nikolai Alekseevich; Belotserkovski, Andrei Sergeevich; Kanevski, Mikhail Igorevich; Pasekunov, Igor Vladimirovich, Flight simulator.
  14. Fischenberg, Dietrich, Flow determination method.
  15. Reinke, Andreas; Kauertz, Sebastian, Ground-based identification of wake turbulence encounters.
  16. Lacaze, Isabelle; Rosay, Jacques; Daniel, Jean-Pierre, Method and device for determining the air turbulence likely to be encountered by an aircraft.
  17. Bommier, Francois; Reymond, Mael, Method and device for measuring air turbulence in the surroundings of an aircraft.
  18. Dal Santo, Xavier, Method and device to assist in the driving of a vehicle, in particular of an aircraft, for the avoidance of obstacles.
  19. Zukowski,Deborra J.; Norris, Jr.,James R.; Rojas,John W., Method and system for determining location by implication.
  20. Hiale-Guilhamou, Mathieu; Robin, Jean-luc, Method for transmitting flight parameters of a lead aircraft to an intruder aircraft.
  21. Schrauben, Andrew Thomas, Method for visually indicating an advisory from the traffic collision avoidance system on a flight display.
  22. Yannone, Ronald M., Passive ranging of a target.
  23. Felix, Francisco A. Navarro; Ruiz, Miguel A. Vilaplana; Querejeta, Carlos; Gallo, Eduardo; Leones, Javier Lopez, Predicting aircraft trajectory.
  24. Félix, Francisco A. Navarro; Ruiz, Miguel A. Vilaplana; Querejeta, Carlos; Gallo, Eduardo; Leonés, Javier López, Predicting aircraft trajectory.
  25. Yannone, Ronald M., Quantity smoother.
  26. Greenleaf, William T.; Dove, Richard S.; Bauler, Scott F.; Jacobsen, Randy H.; Seah, Kirschen A., Sensing, display, and dissemination of detected turbulence.
  27. Mutuel, Laurence; Baillon, Bertrand, System and method for detecting wake turbulence of an aircraft.
  28. Kar, Satyanarayan; Agarwal, Jitender Kumar; Maji, Sanjib Kumar; Chakraborty, Sandeep, System and method for displaying degraded traffic data on an in-trail procedure (ITP) display.
  29. Kar, Satyanarayan; Maji, Sanjib Kumar; Agarwal, Jitender Kumar, System and method for displaying in-trail procedure (ITP) opportunities on an aircraft cockpit display.
  30. Scheu, Steven Scott; Judy, Vicki; Bernstein, Norman R.; Letsu-Dake, Emmanuel, System and method for displaying symbology on an in-trail procedure display graphically and textually representative of a vertical traffic scenario and air-traffic-control negotiation.
  31. Conner, Kevin J; Ishihara, Yasuo; Berry, Ray, System and method for processing and displaying wake turbulence.
  32. Shamasundar, Raghu, System and method for rendering an aircraft cockpit display for use with an in-trail procedure (ITP).
  33. Singer, Donald; Mulhall, Patrick, System and method for rendering an onboard aircraft display for use with in-trail procedures.
  34. Kirk, James C., Systems and methods for generation of comprehensive airspace weather condition display from shared aircraft sensor data.
  35. Kirk, James C., Systems and methods for generation of comprehensive airspace weather condition display from shared aircraft sensor data by a transmitting aircraft.
  36. Lewis, Michael S.; Meserole, Jere S.; Dunn, Michael J.; Tillotson, Brian J., Systems and methods for tracing aircraft vortices.
  37. Lewis, Michael S.; Meserole, Jere S.; Dunn, Michael J.; Tillotson, Brian J., Systems and methods for tracing aircraft vortices.
  38. Lewis, Michael S.; Meserole, Jere S.; Dunn, Michael J.; Tillotson, Brian J., Systems and methods for tracing aircraft vortices.
  39. La Civita, Marco, Using aircraft trajectory data to infer aircraft intent.
  40. Khatwa, Ratan; Mathan, Santosh; Olofinboba, Olukayode, Vertical profile display with variable display boundaries.
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