Hyperbolic wave forward difference self-scanning direct-view synthetic aperture laser imaging radar
A synthetic aperture laser, hyperbolic wavefront difference technology, applied in the re-radiation of electromagnetic waves, radio wave measurement systems, instruments, etc., can solve the problems of limiting the range of radar and difficulty in long-distance detection.
Active Publication Date: 2015-01-21
SHANGHAI INST OF OPTICS & FINE MECHANICS CHINESE ACAD OF SCI
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[0005] During the operation of the above-mentioned direct-looking synthetic aperture imaging lidar and side-looking synthetic aperture imaging lidar, the operating distance of the target will generate a time delay of the echo signal, but when the delay of the echo signal exceeds the emission pulse period, the laser emission signal need to seek and identify its associated echo pulse, this complex technique limits the range of the radar, making it difficult for long-distance detection
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[0056] The present invention will be described in further detail below with reference to the accompanying drawings and embodiments, but the protection scope of the present invention should not be limited by this.
[0057] figure 2 It is a structural diagram of an embodiment of the hyperbolic wavefront difference self-scanning direct-view synthetic aperture laser imaging radar of the present invention. The corresponding relationship between the structural components of the embodiment and the basic principle structural components is shown in Table 1.
[0058] Table 1 Correspondence between the structural components of the embodiment and the components of the basic principle structure
[0059]
[0060]
[0061] The cross-orbital direction is defined as the x-direction, the along-orbital direction is defined as the y-direction, and a (α, β) coordinate system is also defined, which is rotated 45° relative to the (x, y) coordinate system.
[0062] The phase distribution of t...
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Hyperbolic wave forward difference self-scanning direct-view synthetic aperture laser imaging radar comprises a continuous laser source, an emission polarization beam splitter, a left arm rear space phase converter, a left arm aperture diaphragm, a left arm front space phase converter, a right arm rear space phase converter, a right arm aperture diaphragm, a right arm front space phase converter, an emission polarization beam combiner, an emission primary mirror, a receiving telescope, a polarization interference autodyne photoelectric receiver, an AD converting and preprocessing device, an echo data storer and a computer. According to the hyperbolic wave forward difference self-scanning direct-view synthetic aperture laser imaging radar, a light modulator is not needed, synchronous correlation of light and electrons during emission and receiving is not needed, the structure is quite simple, the influence of echo delay is avoided, system receive sensitivity is quite high, and the inherent advantages of direct-view synthetic aperture laser imaging radar are reserved. The hyperbolic wave forward difference self-scanning direct-view synthetic aperture laser imaging radar is suitable for observation and imaging from space to earth under various relative movement speeds and operating ranges and detection of spatial moving targets in the aerospace field and is based on the retrosynthesis aperture principle.
Description
technical field [0001] The invention relates to a laser radar, which is a hyperbolic wave front difference self-scanning direct-view synthetic aperture laser imaging radar. The compound hyperbolic wavefront of the hyperbolic wavefront difference and the quadratic phase wavefront difference along the track, the relative motion of the target is automatically scanned in the cross-track direction to generate a linear phase modulation related to the lateral distance of the target surface, and at the same time, the target surface is generated in the track direction. Orbital distance dependent quadratic phase history. The system structure adopts polarization orthogonal coaxial double beam projection imaging emission and polarization interference self-difference photoelectric detection and reception. The basic physical concept is to implement the lateral distance resolution of the target surface in the cross-track direction, and implement aperture synthesis in the along-track directio...
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IPC IPC(8): G01S17/89
CPCG01S17/90
Inventor 刘立人
Owner SHANGHAI INST OF OPTICS & FINE MECHANICS CHINESE ACAD OF SCI
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