초록 ▼

A method for determining a location of a flying target included identifying and measuring the target by at least two seeker systems disposed at a distance from one another. The position of the target relative to at least one of the two seeker systems is determined from measurement data derived there

A method for determining a location of a flying target included identifying and measuring the target by at least two seeker systems disposed at a distance from one another. The position of the target relative to at least one of the two seeker systems is determined from measurement data derived therefrom. The position of the target is measured inconspicuously and without active radiation, in that the seeker systems are data-networked, passive target tracking systems for missiles, which autonomously track the target and align the missile with the target. The measurement data determined by the data-networked seeker systems are combined, and the location of the target is determined from the combined data.

대표청구항 ▼

1. A method of determining a location of a flying target, which comprises: providing at least two seeker systems positioned at a distance from one another, the seeker systems being data-networked, passive target tracking systems for missiles;identifying and measuring the target with the at least two

1. A method of determining a location of a flying target, which comprises: providing at least two seeker systems positioned at a distance from one another, the seeker systems being data-networked, passive target tracking systems for missiles;identifying and measuring the target with the at least two seeker systems, and autonomously tracking the target and aligning a missile with the target;combining the measurement data determined by the seeker systems and determining a position of the target relative to at least one of the two seeker systems from the measurement data. 2. The method according to claim 1, wherein at least one of the seeker systems is part of a carrier platform from which at least one missile is launched. 3. The method according to claim 2, wherein the seeker system on the carrier platform is provided in addition to a seeker system in the missile to be launched. 4. The method according to claim 3, which comprises, with the seeker system mounted on the carrier platform, aiming the carrier platform at the target, generating target data and transferring the target data to the seeker system of the missile to be launched, and, with the seeker system in the missile, detecting the target only on the basis of the target data thus transferred while the seeker system in the missile has no view of the target. 5. The method according to claim 1, which comprises launching a missile from a carrier platform, with one of the two seeker systems being part of the missile, and the second seeker system being part of the carrier platform. 6. The method according to claim 1, wherein both seeker systems are part of a carrier platform from which missiles are in each case launched. 7. The method according to claim 6, which comprises using the flight path to determine which of the two carrier platforms will be used for defending against the flying target. 8. The method according to claim 1, which comprises determining a flight path and an impact point on the target with the aid of both seeker systems. 9. The method according to claim 8, which comprises using the flight path to determine which of the two carrier platforms will be used for defending against the flying target. 10. The method according to claim 1, wherein the seeker systems are part of a group of vehicles comprising at least three vehicles each having a carrier platform for launching missiles, and which comprises lining the seeker systems to one another via a data network, and determining the location of the target locally in at least two of the vehicles. 11. An apparatus for determining a location of a flying target, comprising: at least two passive seeker systems disposed at a distance from one another;at least one processing device connected to said seeker systems, configured to measure a position of the target from measurement data acquired by said seeker systems, and configured to determine the position of the target relative to said at least two seeker systems from the measurement data;wherein said seeker systems are data-networked, passive target tracking systems for missiles configured to autonomously track the target and to align the missiles with the target.