A ranging seeker apparatus includes an RF antenna and a bistatic ranging detector operatively connected with the RF antenna. The RF antenna and bistatic ranging detector are operative for detecting one or more guidance objects in a RF band and providing angle and range data to the missile. Also, a m
A ranging seeker apparatus includes an RF antenna and a bistatic ranging detector operatively connected with the RF antenna. The RF antenna and bistatic ranging detector are operative for detecting one or more guidance objects in a RF band and providing angle and range data to the missile. Also, a missile including a missile body, a missile propulsion system disposed in or on the missile body, and the ranging bistatic RF seeker disposed in or on the missile body.
대표청구항▼
1. A seeker apparatus for a missile, the seeker apparatus comprising: an RF antenna; and a bistatic ranging detector operatively connected with the RF antenna,wherein the RF antenna and the bistatic ranging detector are configured to: detect RF illumination scattered by a targeted object illuminated
1. A seeker apparatus for a missile, the seeker apparatus comprising: an RF antenna; and a bistatic ranging detector operatively connected with the RF antenna,wherein the RF antenna and the bistatic ranging detector are configured to: detect RF illumination scattered by a targeted object illuminated with RF illumination produced by one or more remote RF illuminators cohered with the missile;estimate a range between the missile and the targeted object using illuminator position data, missile position data, missile attitude data, and targeted object guidance data; andguide the missile to the targeted object using the estimated range. 2. The seeker apparatus according to claim 1, further comprising a multi-channel receiver operatively coupled between the RF antenna and the bistatic ranging detector. 3. The seeker apparatus according to claim 2, further comprising a coherent timing source for providing the multi-channel receiver with time delay data relative to the one or more remote RF illuminators. 4. The seeker apparatus according to claim 3, wherein the coherent timing source comprises an illuminator-synched high-precision clock source. 5. The seeker apparatus according to claim 2, further comprising a navigation system operatively coupled to the bistatic ranging detector, the navigation system providing the bistatic ranging detector with seeker navigation data. 6. The seeker apparatus according to claim 5, wherein the bistatic ranging detector uses the seeker navigation data and time synchronized detections provided by the multi-channel receiver to estimate seeker-observed target object angles and target object ranges. 7. A missile comprising: a missile body;a missile propulsion system; anda ranging bistatic RF seeker including an RF antenna and a bistatic ranging detector operatively connected with the RF antenna, wherein the RF antenna and the bistatic ranging detector are configured to:detect RF illumination scattered by a targeted object illuminated with RF illumination produced by one or more remote RF illuminators cohered with the missile;estimate a range between the missile and the targeted object using illuminator position data, missile position data, missile attitude data, and targeted object guidance data; andguide the missile to the targeted object using the estimated range. 8. The missile according to claim 7, wherein the ranging bistatic RF seeker further includes a multi-channel receiver operatively coupled between the RF antenna and the bistatic ranging detector. 9. The missile according to claim 8, further comprising a coherent timing source for providing the multi-channel receiver with time delay data relative to the one or more remote RF illuminators. 10. The missile according to claim 9, wherein the coherent timing source comprises an illuminator-synched high-precision clock. 11. The missile according to claim 7, further comprising a navigation system operatively coupled to the bistatic ranging detector, the navigation system providing the bistatic ranging detector with seeker navigation data. 12. The missile according to claim 11, wherein the bistatic ranging detector uses the seeker navigation data and time synchronized detections provided by the multi-channel receiver to estimate seeker-observed target object angles and target object ranges. 13. The missile according to claim 7, further comprising: an RF communications antenna in or on the missile body;an RF uplink operatively coupled to the RF communications antenna; andan association and selection logic unit operatively coupled to the RF uplink,wherein the RF communications antenna receives target object map data and the RF uplink uploads the target object map data to the association and selection logic unit. 14. The missile according to claim 13, further comprising a guidance system disposed in or on the missile body, wherein the association and selection logic unit is operatively coupled to the bistatic ranging detector and the guidance and propulsion systems, wherein the association and selection logic unit processes the target object map data received from the RF uplink and the estimated seeker angle and range data at the output of the bistatic ranging detector, to associate the targeted object observed or detected by the RF seeker with the target object map data provided by one or both of a missile firing platform of the missile and a Radar Command and Control System via the RF uplink, and selects a best guidance object for input to the guidance and propulsion systems. 15. The missile according to claim 7, wherein the missile further comprises one or both of an IR seeker and an optical seeker. 16. A method for detecting and guiding a missile to a targeted object, the method comprising: illuminating the targeted object with RF illumination produced by a source external to and cohered with the missile;detecting RF illumination scattered by the targeted object with an RF seeker of the missile;estimating with the RF seeker a range between the missile and the targeted object using illuminator position data, missile position data, missile attitude data, targeted object delay data, and targeted object angle data; andguiding the missile to the targeted object using the estimated range and angle data. 17. The method according to claim 16, wherein the range is further estimated using data from an IR seeker. 18. A method for detecting and guiding a missile to an object targeted in a cluster of objects, the method comprising: illuminating the objects with RF illumination produced by a source external to and cohered with the missile;detecting RF illumination scattered by each of the objects with an RF seeker of the missile;estimating with the RF seeker a range between the missile and each of the objects using illuminator position data, missile position data, missile attitude data, and target object guidance data; andguiding the missile to a selected one of the objects in the cluster of objects based on the estimated ranges, the selected one of the objects being the targeted object. 19. The method according to claim 18, wherein the target object guidance data includes target object delay data and target object angle data. 20. The method according to claim 19, wherein the guiding the missile to the selected one of the objects in the cluster of objects includes: comparing the estimated range of each of the objects with target object guidance data; andselecting the object in the cluster having the estimated range and angle position, and potentially associated rate and rate derivatives, that best match the target object guidance data.
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이 특허에 인용된 특허 (12)
Krikorian, Kapriel V.; Rosen, Robert A., All weather precision guidance of distributed projectiles.
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