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특허 상세정보

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내보내기 페이스북 공유 카카오톡 공유

Automated readiness evaluation system (ARES) for use with an unmanned aircraft system (UAS)

특허상세정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판) G05D-001/02    G06K-019/07    B64C-039/02    B64D-047/08    G05D-001/00    B64D-045/00    G08G-005/00    B64F-005/10    B64F-005/60    G06F-003/00    G06F-011/00    G06Q-010/00    G06Q-050/30   
출원번호 US-0195735 (2016-06-28)
등록번호 US-9922282 (2018-03-20)
발명자 / 주소
  • Weller, Errin T.
  • Franklin, Jeffrey B.
출원인 / 주소
  • LIMITLESS COMPUTING, INC.
대리인 / 주소
    Marsh Fischmann & Breyfogle LLP
인용정보 피인용 횟수 : 1  인용 특허 : 88
초록

Methods and systems for an Automated Readiness Evaluation System (ARES), which is adapted for use with unmanned aircraft systems (UAS). The ARES (and UAS with such an ARES) is configured for a particular task or application selected by the user based upon their level of specific knowledge. The system may include: hardware components with communication protocols; a task, module data, and skill level repository; a user device; and an optional base system. Methods are provided for configuration, calibration, error checking, and operation of a UAS whereby th...

대표
청구항

1. An unmanned aircraft system (UAS), comprising: an unmanned aerial vehicle (UAV);a processor executing code to provide an automated readiness evaluation system (ARES); anda user input device receiving user input indicating a selected task for the UAS;wherein the ARES selects a set of UAS configurable hardware modules for the UAV from a plurality of potential hardware modules based on the selected task for the UAS,wherein the set of UAS configurable hardware modules are physically and communicatively coupled to the UAV prior to performance of the select...

인용문헌 (88)

  1. Ahmed, Ghufran; Ferik, Sami El, Adaptive control method for unmanned vehicle with slung load.
  2. Daunois, Stephane; Corre, Michel, Aircraft flight control.
  3. Seydoux, Henri; Callou, Francois; Babel, Mathieu, Altitude estimator for a rotary-wing drone with multiple rotors.
  4. Stupakis, John S., Automated cargo transportation system.
  5. Johnson, Timothy L.; Kaliski, Martin E., Automatic flight envelope protection for uninhabited air vehicles: method for determining point in flight envelope.
  6. Builta, Kenneth E., Automatic heading control system for tiltrotor aircraft and helicopters.
  7. Alejandro Velasco Levy ; Ildiko Palyka, Automatic pilot system for model aircraft.
  8. Builta, Kenneth E.; Schulte, Kynn J., Automatic velocity control system for aircraft.
  9. Yavnai Arie,ILX, Autonomous command and control unit for mobile platform.
  10. van Tooren, Joost; Heni, Martin; Knoll, Alexander; Beck, Johannes, Collision and conflict avoidance system for autonomous unmanned air vehicles (UAVs).
  11. Builta, Kenneth E.; Harris, James E.; Gore, Billy K., Control system for automatic circle flight.
  12. Rios, Jeffrey P., Control system for remotely operated vehicles for operational payload employment.
  13. Woodruff,Roger, Determining a remote device name.
  14. Hors, Daniel; Joncour, Yvon, Device for remotely controlling aircraft control surfaces.
  15. Givoly,Tal, Digital asset monitoring system and method.
  16. Astrid Kreissig DE; Gerald Kreissig DE; Armin Stegerer DE, Dynamic association of input/output device with application programs.
  17. Lee, Hou-Hsien; Lee, Chang-Jung; Lo, Chih-Ping, Electronic device and method for controlling unmanned aerial vehicle using the same.
  18. Vos David W., Fault tolerant automatic control system utilizing analytic redundancy.
  19. Spek, Jorrit van der, Flight guidance and navigation display for a helicopter.
  20. McAndrew, Katherine; Watson, Linda J.; Feist, Jon; Moorman, A. Christopher, Flight technical control management for an unmanned aerial vehicle.
  21. McAndrew, Katherine; Watson, Linda; Feist, Jon; Moorman, A. Christopher, Flight technical control management for an unmanned aerial vehicle.
  22. Perrone, Paul J., General purpose robotics operating system.
  23. Herwitz,Stanley R., Ground-based sense-and-avoid display system (SAVDS) for unmanned aerial vehicles.
  24. Allen,Michael J., Guidance and control for an autonomous soaring UAV.
  25. Jess, Peter E., Hybrid lift air vehicle.
  26. Karem, Abraham E., Intuitive vehicle and machine control.
  27. Kimball, James F.; Leonard, Stephen B., Inventory management system using RFID.
  28. Kulesha, Richard L., Lighter-than-air vertical load lifting system.
  29. Larsson,Stefan; Oehmichen,Fredrik; Weiland,Carleric, Method and a station for assisting the control of an aircraft.
  30. Joshi,Avinash, Method and apparatus for determining a route between a source node and a destination node in a wireless multihopping communication network.
  31. Margolin Jed, Method and apparatus for remotely piloting an aircraft.
  32. Wu Tzong-Hsiu B. (Redmond WA), Method and apparatus for the linear real time estimation of an aircraft center of gravity.
  33. Bouchet, Christophe; Demortier, Jean-Pierre; Artini, Franck, Method and system for assisting flight control of a low-flying aircraft.
  34. Haas,Philippe, Method and system for the automatic piloting of an aircraft on the approach to an airdrop position.
  35. Bohannon, Philip L., Method for determining juxtaposition of physical components with use of RFID tags.
  36. Hoff, Bruce; Azuma, Ronald T., Method for dynamic autocalibration of a multi-sensor tracking system and apparatus incorporating it therein.
  37. Kirson Allan M. ; Lucas Brian G., Method of assigning a device identification.
  38. Lee, Hyun-chul, Method of direction-guidance using 3D sound and navigation system using the method.
  39. Colburn, Joseph S.; Altan, Osman D.; Geary, Kevin; Hsu, Hui Pin, Method of estimating target elevation utilizing radar data fusion.
  40. Derbanne, Thomas, Method of evaluating the horizontal speed of a drone, in particular a drone capable of performing hovering flight under autopilot.
  41. Rischmuller, Michael; D'haeyer, Frederic, Method of piloting a multiple rotor rotary-wing drone to follow a curvilinear turn.
  42. Callou, Francois, Method of piloting a rotary wing drone having multiple rotors.
  43. Vos, David W., Method, apparatus and design procedure for controlling multi-input, multi-output (MIMO) parameter dependent systems using feedback LTI'zation.
  44. Maltseff, Paul; Payne, Ronald D., Method, apparatus, and system for selecting and locating objects having radio frequency identification (RFID) tags.
  45. Bodkin William Andrew, Miniature infrared camera.
  46. Carroll, Ernest A., Miniature, unmanned aircraft with interchangeable data module.
  47. Carroll, Ernest A., Miniature, unmanned aircraft with onboard stabilization and automated ground control of flight path.
  48. Appleby, Brent; Paradis, Rosemary D.; Szczerba, Robert J., Mission planning system for vehicles with varying levels of autonomy.
  49. Royalty, Charles D., Modular aircraft information network system and an associated method of packaging the same.
  50. Mullen, Robert E.; Milhouse, Keith D.; Schmidt, Paul L., Modular mission payload control software.
  51. Aichi,Isao, Motion detection method and device, program and vehicle surveillance system.
  52. Duggan, David S.; Felio, David A.; Pate, Billy B.; Longhi, Vince R.; Petersen, Jerry L.; Bergee, Mark J., Multi-sensor autonomous control of unmanned aerial vehicles.
  53. Klingensmith Wallace Neil, Multi-thrustered hover craft.
  54. Sunshine,Steven A.; Steinthal,M. Gregory; Roy,Ajoy, Multiple sensing system and device.
  55. Bodin,William Kress; Redman,Jesse J. W.; Thorson,Derral C., Navigating a UAV.
  56. Bodin, William Kress; Redman, Jesse J. W.; Thorson, Derral C., Navigating a UAV under remote control and manual control with three dimensional flight depiction.
  57. Bodin,William Kress; Redman,Jesse J. W.; Thorson,Derral C., Navigating a UAV with a remote control device.
  58. Bodin,William Kress; Redman,Jesse; Thorson,Derral Charles, Navigating a UAV with obstacle avoidance algorithms.
  59. Savoye, Guillaume; Morra, Flavien; Vuillet, Jean-Francois, Navigation electronic card support for a rotary wing drone.
  60. Breakfield, David K.; Martin, Jerry D.; Paul, Fred D., Navigation of remote controlled vehicles.
  61. Schaefer ; Jr. Carl G. ; McCool Kelly M. ; Haas David J., Neural network based helicopter low airspeed indicator.
  62. Nakagawa,Seiji; Okamoto,Minoru, Object tagged with RFID tag and device and method for processing it.
  63. Larson, Jacoby R.; Bruch, Michael H., Obstacle avoidance system and method.
  64. Armstrong, Clay, Plug and play modular mission payloads.
  65. Carroll, Robert T.; Noon, James; Sreenivas, Venkat; Martin, Gary D., Power supply circuitry, collection and reporting of power supply parameter information.
  66. Moitra, Abha; Mattheyses, Robert M.; Szczerba, Robert J.; Hoebel, Louis J.; Didomizio, Virginia A.; Yamrom, Boris, Real-time team coordination system for reconnaissance and surveillance missions.
  67. Troutman, S. Clayton, Remote control model aircraft with laser tag shooting action.
  68. Lahn, Richard H., Remote image management system (RIMS).
  69. Johnson Mark W. ; Jagnow Paul G. ; Forseth Daniel C., Remote position sensing system for use with an unmanned apparatus.
  70. Condon, John Paul; Fairman, James Edward; Pedersen, Bradley Dean; KraMer, Thomas Edward; Melanson, Scott Andrew, Remote-control flying copter and method.
  71. Little,Robert, Robot arm coupling apparatus.
  72. Khoshnevis, Behrokh, Robotic systems for automated construction.
  73. Matuska, David G.; Anttila, Donald S., Rotary wing aircraft proximity warning system with a geographically based avoidance system.
  74. Shams, Qamar A.; Logan, Michael J.; Fox, Robert L.; Fox, legal representative, Christopher L.; Fox, legal representative, Melanie L.; Ingham, John C.; Laughter, Sean A.; Kuhn, III, Theodore R.; Adams, James K.; Babel, III, Walter C., Self-contained avionics sensing and flight control system for small unmanned aerial vehicle.
  75. Terry Jack James, Semiautonomous flight director.
  76. Colin, Youenn; Bertrand, Blaise; Patron, Anthony; Pho, Vinh, Skyteboard quadcopter and method.
  77. Lingafelt,Charles Steven; Yell,Nigel Birkbeck, System and method for detecting and controlling a drone implanted in a network attached device such as a computer.
  78. Ananth,Viswanath; Surianarayanan,Ananthakrishnan, System and method for real-time configurable monitoring and management of task performance systems.
  79. Margolin, Jed, System and method for safely flying unmanned aerial vehicles in civilian airspace.
  80. Ekhaguere, David E.; Annati, Rick E.; Gerlock, Derick L.; Birkel, Douglas, Systems and methods for unmanned aerial vehicle navigation.
  81. Ben Asher, Yosef; Feldman, Sharoni; Gurfil, Pinchas, UAV decision and control system.
  82. Levien, Royce A.; Lord, Richard T.; Lord, Robert W.; Malamud, Mark A.; Rinaldo, Jr., John D.; Wood, Jr., Lowell L., Unmanned device interaction methods and systems.
  83. Levien, Royce A.; Lord, Richard T.; Lord, Robert W.; Malamud, Mark A.; Rinaldo, Jr., John D.; Wood, Jr., Lowell L., Unmanned device utilization methods and systems.
  84. Minor Roy R. ; Rowe David W., Utilization of a magnetic sensor to compensate a MEMS-IMU/GPS and de-spin strapdown on rolling missiles.
  85. Heydt, Jeffrey A.; Hill, Christopher L., Velocity dependent reference profile for spindle motor acceleration control.
  86. Khvilivitzky Alexander (9127 NW. 43 Ct. Coral Springs FL 33065), Visual collision avoidance system for unmanned aerial vehicles.
  87. Condon, John Paul; Fairman, James Edward; Pedersen, Bradley Dean, Wireless communication system for game play with multiple remote-control flying craft.
  88. Olson, Steven J.; Wheeler, Matt, Wirelessly controlling unmanned aircraft and accessing associated surveillance data.

이 특허를 인용한 특허 (1)

  1. Weller, Errin T.; Franklin, Jeffrey B., Method and system for configurable and scalable unmanned aerial vehicles and systems.

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