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특허 상세정보

System and method for simultaneously guiding multiple missiles

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판) F41G-007/00   
미국특허분류(USC) 244/031.1 ; 244/031.4
출원번호 US-0888963 (1997-07-07)
발명자 / 주소
출원인 / 주소
대리인 / 주소
    Downs
인용정보 피인용 횟수 : 30  인용 특허 : 7
초록

A system and method that covertly provides in-flight target update data to a large number of missiles. The system and method covertly guides the missiles using a transponder located on a satellite that relays encoded target update data to receivers located on each of the missiles. The target update data is derived from intelligence data acquired by a remote sensing device. The target update data is typically transmitted to the missile launch site where it is encoded and transmitted to the transponder on the satellite. The encoding is preferably accomplis...

대표
청구항

[ What is claimed is:] [1.] A system for covertly providing a large number of missiles with in-flight updated guidance data improve the ability of the missiles to attack multiple mobile targets, said system comprising:a plurality of missiles that each comprise a receiver having a pseudo random code generator that contains a unique seed;a monitoring device having a sensor for generating current target location data indicative of current locations of the multiple mobile targets, and having a transmitter for transmitting the current target location data;a r...

이 특허를 인용한 특허 피인용횟수: 30

  1. Small James G.. All-weather roll angle measurement for projectiles. USP2000016016990.
  2. Bobinchak, James; Hewer, Gary. Apparatus and method for cooperative multi target tracking and interception. USP2010037675012.
  3. Bobinchak,James; Hewer,Gary. Apparatus and method for cooperative multi target tracking and interception. USP2008097422175.
  4. Bobinchak,James; Hewer,Gary. Apparatus and method for cooperative multi target tracking and interception. USP2008037338009.
  5. Harding, William V.; Gant, Arlin W.; Zimmerer, Douglas R.. Autonomous mission profile planning. USP2004016672534.
  6. Wright, James E.. Containerized rocket assisted payload (RAP) launch system. USP2005036868769.
  7. Biswell, Brian L.. Deconfliction of guided airborne weapons fired in a salvo. USP2013078487226.
  8. Mead Donald C.. Downloading of personalization layers for symbolically compressed objects. USP2000076088484.
  9. Lammers, Richard H.; Boria, Greg. Graphical display for munition release envelope. USP2014048686879.
  10. Ell, Todd. Laser-aided passive seeker. USP2016079383170.
  11. Dold, Raimund; Kuhn, Thomas; Hinding, Wilhelm. Method and apparatus for determining a location of a flying target. USP2013048415596.
  12. Skullestad, Age Johan; Straume, Terje; Lowe, Kare; Haugen, Rune Andre. Method and system for planning and launching a plurality of missiles to be included in the same mission. USP2018059958237.
  13. Moskovitz Yigal,ILX ; Saban Izhak,ILX ; Fabian Rami,ILX. Method for assigning a target to a missile. USP2001036196496.
  14. Seidel Wolfgang,DEX ; Guischard Frank,DEX. Method for autonomous guidance of a spin-stabilized artillery projectile and autonomously guided artillery projectile for realizing this method. USP2000106135387.
  15. Sharpin, David; Kolanek, Jim; Cvetnic, Mark A.; Hutchings, Mike; Tennison, James; Nelson, Kent Carl; Hunsberger, Harold Kregg; Baseghi, Behshad. Methods and apparatuses for active protection from aerial threats. USP2015109170070.
  16. Kolanek, James; Baseghi, Behshad; Sharpin, David; Visco, Anthony; Shieh, Falin. Methods and apparatuses for aerial interception of aerial threats. USP2017019551552.
  17. Kolanek, James; Baseghi, Behshad; Sharpin, David; Visco, Anthony; Shieh, Falin. Methods and apparatuses for engagement management of aerial threats. USP20190310228689.
  18. Kolanek, James; Baseghi, Behshad; Sharpin, David; Visco, Anthony; Shieh, Falin. Methods and apparatuses for engagement management of aerial threats. USP2016119501055.
  19. Wallis, Graham Patrick. Missile guidance system. USP2013068471186.
  20. Miralles, Carlos Thomas. Multimode unmanned aerial vehicle. USP20190310222177.
  21. Miralles, Carlos Thomas. Multimode unmanned aerial vehicle. USP2015099127908.
  22. Lutke, Kevin; Kutzmann, Aaron J.. Projectile and associated method for seeking a target identified by laser designation. USP2014098829401.
  23. Carroll, Galen Duff; Greuner, Eric M.. Projectile system and methods of use. USP2015109157717.
  24. Krikorian,Kapriel V.; Rosen,Robert A.. Pseudo GPS aided multiple projectile bistatic guidance. USP2006107121502.
  25. Urbano, Leonardo F.; Bock, Gregory F.; Moffett, Ivy T.. Sensor independent engagement decision processing. USP2011118063347.
  26. Ghaleb, Sam; Bobinchak, James; Gray, Keith P.; Heil, Rodney E.; Aberer, Philip T.. Smart counter asymmetric threat micromunition with autonomous target selection and homing. USP2009127631833.
  27. Dicander, Fredrik. System and method for tracking and guiding at least one object. USP2015049000340.
  28. Tomich, John L.; Casey, William M.; Johnston, Colin M.; Samaniego, Raymond; Fluckiger, David; McLean, Terry. Systems and methods for acquiring and launching and guiding missiles to multiple targets. USP20190310240900.
  29. Khuc, Lloyd; Cali, Nicholas; Vo, Daniel. Universal smart fuze for unmanned aerial vehicle or other remote armament systems. USP2016089410783.
  30. Drymon Thomas S.. Utilizing high altitude long endurance unmanned airborne vehicle technology for airborne space lift range support. USP2001016176451.