$\require{mediawiki-texvc}$
  • 검색어에 아래의 연산자를 사용하시면 더 정확한 검색결과를 얻을 수 있습니다.
  • 검색연산자
검색연산자 기능 검색시 예
() 우선순위가 가장 높은 연산자 예1) (나노 (기계 | machine))
공백 두 개의 검색어(식)을 모두 포함하고 있는 문서 검색 예1) (나노 기계)
예2) 나노 장영실
| 두 개의 검색어(식) 중 하나 이상 포함하고 있는 문서 검색 예1) (줄기세포 | 면역)
예2) 줄기세포 | 장영실
! NOT 이후에 있는 검색어가 포함된 문서는 제외 예1) (황금 !백금)
예2) !image
* 검색어의 *란에 0개 이상의 임의의 문자가 포함된 문서 검색 예) semi*
"" 따옴표 내의 구문과 완전히 일치하는 문서만 검색 예) "Transform and Quantization"

특허 상세정보

Plug and play modular mission payloads

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판) H04J-003/24    G01C-021/00   
미국특허분류(USC) 701/013; 701/024; 701/036; 370/349; 370/315; 224/003.15
출원번호 US-0012613 (2001-12-13)
발명자 / 주소
출원인 / 주소
대리인 / 주소
    Homer, Mark
인용정보 피인용 횟수 : 40  인용 특허 : 9
초록

The present application discloses plug and play modular mission payloads in the context of aerial vehicles, and a supporting open system architecture that moves the control function of mission payloads away from the ground station and into the aerial vehicle. The plug-and-play (PnP) modular mission payloads and web-based payload interface software resides in a payload computer in the vehicle, and this is networked via a uniform resource locator (URL) addressing scheme to a ground control station. Consequently, when new payload types are added to the syst...

대표
청구항

The present application discloses plug and play modular mission payloads in the context of aerial vehicles, and a supporting open system architecture that moves the control function of mission payloads away from the ground station and into the aerial vehicle. The plug-and-play (PnP) modular mission payloads and web-based payload interface software resides in a payload computer in the vehicle, and this is networked via a uniform resource locator (URL) addressing scheme to a ground control station. Consequently, when new payload types are added to the syst...

이 특허를 인용한 특허 피인용횟수: 40

  1. Alber, Mark R.; Stille, Brandon L.; Smiley, Alfred Russell. Aerodynamic integration of a payload container with a vertical take-off and landing aircraft. USP2014118876057.
  2. Frolov, Sergey V.; Cyrus, Michael; Bruce, Allan J.; Moussouris, John Peter. Apparatus for distributed airborne wireless communications. USP2014118897770.
  3. Frolov, Sergey V.; Cyrus, Michael; Bruce, Allan J.; Moussouris, John Peter. Apparatus for distributed airborne wireless communications. USP2015038983455.
  4. Weller, Errin T.; Franklin, Jeffrey B.. Automated readiness evaluation system (ARES) for use with an unmanned aircraft system (UAS). USP2018039922282.
  5. Appleby,Brent D.; Franke,Jerry L.; Jameson,Stephen M.; Jung,Adam; Szczerba,Robert J.; Tleon,Joel J.. Collaborative system for a team of unmanned vehicles. USP2008117451023.
  6. Liu, John Y.. Combined orbit and attitude determination system and methods. USP20180810061008.
  7. Hensel, Fabian. Development of an unmanned aerial vehicle. USP2018049940432.
  8. Frolov, Sergey V.; Cyrus, Michael; Bruce, Allan J.; Moussouris, John Peter. Distributed airborne wireless networks. USP2015079083425.
  9. Downey, Jonathan; Michini, Bernard J.; Richman, Brian. Distributed unmanned aerial vehicle architecture. USP2016089403593.
  10. Downey, Jonathan; Michini, Bernard J.; Richman, Brian. Distributed unmanned aerial vehicle architecture. USP2016039273981.
  11. Downey, Jonathan; Michini, Bernard J.; Richman, Brian. Distributed unmanned aerial vehicle architecture. USP2016049310221.
  12. Downey, Jonathan; Michini, Bernard J.; Richman, Brian. Distributed unmanned aerial vehicle architecture. USP2016059340283.
  13. Fleming, Jonathan. Ducted fan UAV control alternatives. USP2013018348190.
  14. Colclough, John C.. Ducted fan air vehicle with deployable wings. USP2010037681832.
  15. Tehan, Matthew; Hursig, David. Flight path planning to reduce detection of an unmanned aerial vehicle. USP2011067970532.
  16. Wheeler,Jeffrey; Mustoe,Paul. Generic command interface for multiple executable routines. USP2006057047526.
  17. Goossen, Emray R; Martinez, Steven D. Guided delivery of small munitions from an unmanned aerial vehicle. USP2012058178825.
  18. Stiffler, William T.. Information layer for a vehicular control network and method. USP2009047515998.
  19. Dunkelberger, Troy T.; Adkins, Justin. Layered architecture for customer payload systems. USP2018059981740.
  20. Weller, Errin T.; Franklin, Jeffrey B.. Method and system for configurable and scalable unmanned aerial vehicles and systems. USP20181010115048.
  21. Frolov, Sergey V.; Cyrus, Michael; Bruce, Allan J.; Moussouris, John Peter. Methods and apparatus for a distributed airborne wireless communications fleet. USP2016049302782.
  22. Frolov, Sergey V.; Cyrus, Michael; Bruce, Allan J.; Moussouris, John Peter. Methods for providing distributed airborne wireless communications. USP2018059985718.
  23. Frolov, Sergey V.; Cyrus, Michael; Bruce, Allan J.; Moussouris, John Peter. Methods for providing distributed airborne wireless communications. USP2017039596020.
  24. Downey, Jonathan B.; Michini, Bernard J.. Modular flight management system incorporating an autopilot. USP20180710025307.
  25. Downey, Jonathan; Michini, Bernard. Modular flight management system incorporating an autopilot. USP2016029250630.
  26. Mullen, Robert E.; Milhouse, Keith D.; Schmidt, Paul L.. Modular mission payload control software. USP2005036873886.
  27. Christenson, Julie; Watson, Linda; McNamara, Jeffrey. Modular software architecture for an unmanned aerial vehicle. USP2012098260479.
  28. Akarmann, Michael. Open system architecture for surveillance systems with efficient bandwidth management. USP2009057536057.
  29. Fitzpatrick, David. Performing corrective action on unmanned aerial vehicle using one axis of three-axis magnetometer. USP2013028386095.
  30. Barrett-Gonzales, Ronald M.. Supersonic hovering air vehicle. USP2015049004393.
  31. Dapp,Michael C.; Jung,Adam; Szczerba,Robert J.; Thurm,Paul W.; Tleon,Joel J.. System for controlling unmanned vehicles. USP2008087415331.
  32. DelNero, Dale E.; DeMarco, Stephen J.; Jung, Adam; Moody, John O.; Stiles, Peter N.; Szczerba, Robert J.; Tleon, Joel J.. System for intelligently controlling a team of vehicles. USP2010067734386.
  33. Blumer, Eric; Thurston, John; Wingett, Paul; Gaines, Louie Timothy; Sheoran, Yogendra Yogi. Tethered autonomous air vehicle with wind turbines. USP2012028109711.
  34. Kugelmass, Bret. Unmanned aerial vehicle and methods for controlling same. USP2015079075415.
  35. Downey, Jonathan; Michini, Bernard J.; Moster, Joseph; Weigel, Donald Curry; Ogden, James. Unmanned aerial vehicle authorization and geofence envelope determination. USP2016089406237.
  36. Downey, Jonathan; Michini, Bernard J.; Moster, Joseph; Weigel, Donald Curry; Ogden, James. Unmanned aerial vehicle authorization and geofence envelope determination. USP2017039607522.
  37. Downey, Jonathan; Michini, Bernard J.; Moster, Joseph; Weigel, Donald Curry; Ogden, James. Unmanned aerial vehicle authorization and geofence envelope determination. USP2016029256225.
  38. Downey, Jonathan; Michini, Bernard J.; Moster, Joseph; Weigel, Donald Curry; Ogden, James. Unmanned aerial vehicle authorization and geofence envelope determination. USP2016049311760.
  39. Downey, Jonathan; Michini, Bernard J.; Moster, Joseph; Weigel, Donald Curry; Ogden, James. Unmanned aerial vehicle authorization and geofence envelope determination. USP2016029256994.
  40. Byers,David W.; Hall,Gary A.; Hunter,Graham D.; Kennell,Colen G.; Macander,Aleksander B.; Milgram,Judah H.; Strickland,Jason D.. Unmanned aerial vehicle for logistical delivery. USP2006067059566.