Multi-sub-beam interference semi-active homing laser watermarking guidance method
A semi-active, sub-beam technology, applied in the field of laser guidance, can solve the failure of guided weapons, reduce the battlefield survivability of semi-active guided weapons, etc., and achieve the effects of high anti-jamming capability, good spatial coherence, and high recognition.
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Embodiment 1
[0030] Such as figure 1 As shown in a, a laser watermarking guidance method with multi-sub-beam interference semi-active homing, at least includes: a laser 1, an optical beam splitter 2, and a photoelectric receiver 3, the output light of the laser 1 is split into beams by the optical beam splitter 2 Three beams of parallel light, the three beam splitters have the same optical path, the three beams of parallel light form an interference field in space, the photoelectric receiver 3 performs imaging detection on the light intensity information of the interference field formed at the target, and analyzes the detection information, And compare it with the spatial interference field model, and output according to the comparison result.
[0031] Such as figure 2 As shown in a, the three beams of parallel light form an interference field in space according to the following distribution function:
[0032]
[0033] In the formula, c is a constant factor, P is the total power of t...
Embodiment 2
[0047] Such as figure 1 As shown in b, a laser watermarking guidance method with multi-beam interference semi-active homing, at least including: a laser 1, an optical beam splitter 2, a timing generator 4, a photoelectric receiver 3 and a target, the output light of the laser 1 passes through the optical The beam splitter 2 splits the beam into four beams of parallel light, and the four beam splitters have the same optical path. The four beams of parallel light form an interference field in space, and after passing through the timing generator 4, they carry timing code information to form the guidance of time-space fusion signal, the photoelectric receiver 3 performs imaging detection on the light intensity information of the interference field formed at the target, analyzes the detection information, compares it with the spatial interference field model, and outputs according to the comparison result.
[0048] Such as figure 2 As shown in b, the four beams of parallel light...
Embodiment 3
[0064] Such as figure 1 As shown in c, a laser watermarking guidance method with multi-sub-beam interference semi-active homing, at least including: a laser 1, an optical beam splitter 2, a timing generator 4, a photoelectric receiver 3 and a target, and the laser 1 passes through the timing generator 4 Encrypted coded output, the encrypted coded output light is split by optical beam splitter 2, the beam splitter has the same optical path, the output light of laser 1 is split into five beams of parallel light by optical beam splitter 2, and five beams are output from the beam splitter With the same optical path, the five beams of parallel light form an interference field in space, and after passing through the timing generator 4, they carry timing coded information to form a guidance signal for fusion of time and space domains. Imaging detection: analyze the detection information, compare it with the spatial interference field model, and output according to the comparison resu...
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