A method employed for threat analysis based on the passive-radar principle, using the transmitter in navigation satellites, a plurality of receiving stations, which are operated distributed over wide regions, and at least one evaluation center. The receiving stations act as wake-up sensors, transmit
A method employed for threat analysis based on the passive-radar principle, using the transmitter in navigation satellites, a plurality of receiving stations, which are operated distributed over wide regions, and at least one evaluation center. The receiving stations act as wake-up sensors, transmit their received signals to at least one evaluation center for comparison with expected signals from each navigation satellite and sensing of a threat. Depending on the result, radar systems are operated on a stationary or mobile basis, can then be used with their higher-quality antenna systems on a three-dimensional basis to obtain more precise details relating to a conspicuous entity and the threat which may possibly originate from it in a possible target region or to a mobile or stationary threatened object, and then to make it possible to decide on any currently required protective or defensive measures.
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1. A method for sensing a potential threat to an object from an entity that passes through a direct sight line between navigation satellite transmitters which form a satellite transmitter group, and a plurality of receiving stations, said entity causing irregularities to be added to expected signals
1. A method for sensing a potential threat to an object from an entity that passes through a direct sight line between navigation satellite transmitters which form a satellite transmitter group, and a plurality of receiving stations, said entity causing irregularities to be added to expected signals transmitted from said navigation satellite transmitters, the method comprising: receiving signals from said navigation satellite transmitters at each receiving station, each receiving station being remotely located from each other and located in a different receiving platform;detecting, at each receiving station, irregularities relating to the received signals on a basis of a difference between an expected received signal and the received signal;transmitting, in response to a detection of irregularities, by each receiving station that detected an irregularity, said received signals at each receiving station to at least one evaluation center, each of said at least one evaluation centers being regionally located;evaluating, collectively, the signals received from each receiving station that transmitted the received signals; andsensing a potential threat based upon said evaluating. 2. The method for sensing a potential threat according to claim 1, wherein the method further comprises comparing any irregularities in signals received from a different satellite transmitter group with the irregularities from the said navigation satellite transmitters. 3. The method for sensing a potential threat according to claim 2, wherein said different satellite transmitter group has a different orbital inclination than said navigation satellite transmitters. 4. The method for sensing a potential threat according to claim 2, wherein said navigation satellite transmitters is a NAVSTAR GPS having a lower orbit than said different satellite transmitter group, said different satellite transmitter group being GALILEO. 5. The method for sensing a potential threat according to claim 1, wherein the receiving stations have with different antenna reception characteristics. 6. The method for sensing a potential threat according to claim 1, further comprising: activating an active-radar directional antenna, based upon said sensing, on a spatially directed basis, said active-radar directional antenna being aligned with an object corresponding to a sensed potential threat to obtain information relating to the entity; andevaluating the obtained information and the irregularities to determine a response to the potential threat. 7. The method for sensing a potential threat according to claim 1, wherein each receiving station transmits the respectively received signals via Internet. 8. The method for sensing a potential threat according to claim 1, wherein the said transmitted signals from each receiving station are analyzed on the basis of propagation times, amplitudes, Doppler shifts and polarization shifts. 9. The method for sensing a potential threat according to claim 1, wherein the received signals are analyzed using an imaging method. 10. The method for sensing a potential threat according to claim 9, wherein said imaging method is based on Inverse Synthetic Aperture Radar (ISAR) principles. 11. The method for sensing a potential threat according to claim 1, further comprising: classifying an entity of interest by tracking a path of transponder signals therefrom. 12. The method for sensing a potential threat according to claim 6, further comprising using the active-radar directional antenna that is positioned distant from a position of the object and is beyond the track of the potentially threatening entity. 13. The method for sensing a potential threat according to claim 1, wherein at least one characteristic of said irregularities is extracted from said transmitted signals from each receiving station and compared with refraction characteristics of entities posing as a threat and its associated threat scenarios. 14. The method for sensing a potential threat according to claim 13, wherein said refraction characteristics of entities posing as a threat and its associated threat scenarios is stored in a database in said at least one evaluation center. 15. The method for sensing a potential threat according to claim 1, further comprising: receiving signals from said navigation satellite transmitters by the at least one evaluation center; andcomparing the received signal from said navigation satellite transmitters with each of the signals received from each receiving station that transmitted the received signals to determine the irregularities.
McIntosh John C., Passive three dimensional track of non-cooperative targets through opportunistic use of global positioning system (GPS) and GLONASS signals.
Ahrens, Frederick A.; Stern, Jay A.; Kirchhoff, Timothy K.; Slivinski, Mark P.; Wolfe, Terrence J.; Mickle, Vernon A.; Dilley, Arthur D.; Cheeseman, Daniel F.; Minahen, Timothy M., Integrated airport domain awareness response system, system for ground-based transportable defense of airports against manpads, and methods.
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