IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0990202
(2004-11-16)
|
등록번호 |
US-7821623
(2010-11-15)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
3 |
초록
▼
A satellite surveillance countermeasure system uses an airborne platform to position a coherent radiation source above a substantial portion of the Earth's atmosphere. The coherent radiation source provides coherent radiation that is directed toward an enemy surveillance satellite, so as to reversib
A satellite surveillance countermeasure system uses an airborne platform to position a coherent radiation source above a substantial portion of the Earth's atmosphere. The coherent radiation source provides coherent radiation that is directed toward an enemy surveillance satellite, so as to reversibly deny the satellite the ability to image. By positioning the coherent radiation source at such an altitude, atmospheric attenuation and distortion are mitigated. Thus, a smaller, less powerful and less costly coherent radiation source can be utilized. The use of an airborne platform also makes the system more portable and affordable.
대표청구항
▼
I claim: 1. A countermeasure system for an imaging system of a surveillance satellite having an imaging sensor array, the countermeasure system comprising: an airborne platform; a radiation source coupled to the airborne platform; and, a closed-loop feedback control system operable to: direct an en
I claim: 1. A countermeasure system for an imaging system of a surveillance satellite having an imaging sensor array, the countermeasure system comprising: an airborne platform; a radiation source coupled to the airborne platform; and, a closed-loop feedback control system operable to: direct an energy beam from the radiation source onto the sensor array of the satellite; monitor the intensity of radiation reflected back from the sensor array of the satellite; and, using the intensity of the reflected radiation, control the intensity of the radiation directed onto the sensor array so as to temporarily blind the sensor array without damaging it. 2. The countermeasure system of claim 1, wherein the airborne platform is capable of ascending to an altitude greater than approximately 15,000 feet. 3. The countermeasure system of claim 1, wherein the airborne platform comprises a vehicle selected from the group consisting of an unmanned aerial vehicle (UAV), an aircraft, and a balloon. 4. The countermeasure system of claim 1, wherein the radiation source comprises a coherent radiation source. 5. The countermeasure system of claim 1, wherein the radiation source comprises a source of substantially coherent light. 6. The countermeasure system of claim 5, wherein the coherent radiation source comprises a laser. 7. The countermeasure system of claim 1, wherein the closed-loop feedback control system further comprises an acquisition system and a tracking system, the acquisition system being operable, using the intensity of the reflected radiation, to acquire the satellite proximate a local horizon, and the tracking system being operable, using the intensity of the reflected radiation, to track the satellite after acquiring it. 8. The countermeasure system of claim 7, wherein the acquisition system includes a fire control system operable to activate the radiation source when the satellite is above a zenith angle of approximately 70°. 9. The countermeasure system of claim 1, wherein the closed-loop feedback control system is further operable, using the intensity of the reflected radiation, to control maneuvering of the airborne platform so as to control an angle between an optical axis of the radiation source and an optical axis of the satellite sensor array. 10. The countermeasure system of claim 1, further comprising a battle damage assessment system onboard the airborne platform. 11. The countermeasure system of claim 1, further comprising an active designation system onboard the airborne platform. 12. A countermeasure system for an imaging system of a surveillance satellite, the countermeasure system comprising: an airborne platform capable of operating at an altitude greater than about 15,000 feet; a radiation source coupled to the airborne platform; and, an optical augmentation system using radiation reflected from an imaging sensor array of the satellite to aid in targeting the satellite, the augmentation system comprising a closed-loop feedback control system operable to direct an energy beam from the radiation source onto the sensor array of the satellite, to monitor the intensity of radiation reflected back from the sensor array, and, using the intensity of the reflected radiation, to center the energy beam on the sensor array, to track movement of the sensor array, and to control the intensity of the radiation directed onto the sensor array such that the sensor array is temporarily blinded but is not damaged. 13. A method of disrupting operation of an imaging system of a surveillance satellite, the method comprising: positioning a radiation source at an altitude greater than about 15,000 feet; directing radiation from the radiation source onto an imaging sensor array of the imaging system of the satellite; monitoring the intensity of radiation reflected back from the sensor array of the satellite; and, using the intensity of the reflected radiation, controlling the intensity of the radiation directed onto the sensor array such that the intensity of the directed radiation is sufficient to temporarily blind the sensor array but not sufficient to damage it.
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