Coherent laser radar system and target measurement method
First Claim
Patent Images
1. A coherent laser radar system comprising:
- a pulsed laser for oscillating a single wavelength pulsed laser beam;
optical dividing means for dividing the pulsed laser beam oscillated by said pulsed laser, and for outputting first part of the pulsed laser beam as a transmitted beam and second part of the pulsed laser beam as a local beam;
transceiver optical means for transmitting the transmitted beam to a target, and for receiving a light beam from the target as a received beam;
a delay line for delaying the local beam output from said optical dividing means;
optical coupling means for coupling the received beam with the local beam output from said delay line;
a photodetector for carrying out coherent detection of a light beam output from said optical coupling means; and
a signal processor for obtaining physical information about the target from the signal passing through the coherent detection by said photodetector, wherein said delay line further comprises;
an optical divider for dividing the local beam output from said optical dividing means into n local beams, where n is a positive integer greater than one;
n delay lines for providing the n local beams with different delay times; and
an optical coupler for coupling the n local beams delayed by said n delay lines.
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Abstract
A coherent laser radar system includes a pulsed laser oscillating a pulsed laser beam which is split into two parts by an optical divider. A first part of the two is transmitted as a transmitted beam via a beam splitter. A second part is supplied to a delay line via a coupling optics and others to be delayed by a predetermined time as a local beam, and is incident onto an optical coupler. The received beam from the target is incident onto the optical coupler via a scanning optics and so on. A photodetector carries out the coherent detection of the light beam coupled by the optical coupler. A signal processor computes a target velocity and the like from a signal generated by the detection and converted into a digital signal by an A/D converter. This makes it possible to solve a problem of a conventional system in that the system configuration is complicated and expensive.
67 Citations
9 Claims
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1. A coherent laser radar system comprising:
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a pulsed laser for oscillating a single wavelength pulsed laser beam;
optical dividing means for dividing the pulsed laser beam oscillated by said pulsed laser, and for outputting first part of the pulsed laser beam as a transmitted beam and second part of the pulsed laser beam as a local beam;
transceiver optical means for transmitting the transmitted beam to a target, and for receiving a light beam from the target as a received beam;
a delay line for delaying the local beam output from said optical dividing means;
optical coupling means for coupling the received beam with the local beam output from said delay line;
a photodetector for carrying out coherent detection of a light beam output from said optical coupling means; and
a signal processor for obtaining physical information about the target from the signal passing through the coherent detection by said photodetector, wherein said delay line further comprises;
an optical divider for dividing the local beam output from said optical dividing means into n local beams, where n is a positive integer greater than one;
n delay lines for providing the n local beams with different delay times; and
an optical coupler for coupling the n local beams delayed by said n delay lines. - View Dependent Claims (2)
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3. A coherent laser radar system comprising:
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a pulsed laser for oscillating a single wavelength pulsed laser beam;
optical dividing means for dividing the pulsed laser beam oscillated by said pulsed laser, and for outputting first part of the pulsed laser beam as a transmitted beam and second part of the pulsed laser beam as a local beam;
transceiver optical means for transmitting the transmitted beam to a target, and for receiving a light beam from the target as a received beam;
a delay line for delaying the local beam output from said optical dividing means;
optical coupling means for coupling the received beam with the local beam output from said delay line;
a photodetector for carrying out coherent detection of a light beam output from said optical coupling means; and
a signal processor for obtaining physical information about the target from the signal passing through the coherent detection by said photodetector, wherein said delay line further comprises;
a loop line;
an optical coupler for guiding the local beam output from said optical dividing means into said loop line, and for dividing part of the local beam traveling around said loop line; and
an optical amplifier at a midpoint of said loop line. - View Dependent Claims (4, 5, 6)
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7. A coherent laser radar system comprising:
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a pulsed laser for oscillating a single wavelength pulsed laser beam;
optical dividing means for dividing the pulsed laser beam oscillated by said pulsed laser, and for outputting first part of the pulsed laser beam as a transmitted beam and second part of the pulsed laser beam as a local beam;
transceiver optical means for transmitting the transmitted beam to a target, and for receiving a light beam from the target as a received beam;
a delay line for delaying the local beam output from said optical dividing means;
optical coupling means for coupling the received beam with the local beam output from said delay line;
a photodetector for carrying out coherent detection of a light beam output from said optical coupling means; and
a signal processor for obtaining physical information about the target from the signal passing through the coherent detection by said photodetector, wherein said delay line further comprises;
a loop line;
an optical coupler for guiding the local beam output from said optical dividing means into said loop line, and for dividing part of the local beam traveling around said loop line, and wherein said optical coupler is a variable optical coupler whose dividing ratio is variable.
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8. A coherent laser radar system comprising:
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a pulsed laser for oscillating a single wavelength pulsed laser beam;
optical dividing means for dividing the pulsed laser beam oscillated by said pulsed laser, and for outputting first part of the pulsed laser beam as a transmitted beam and second part of the pulsed laser beam as a local beam;
transceiver optical means for transmitting the transmitted beam to a target, and for receiving a light beam from the target as a received beam;
a delay line for delaying the local beam output from said optical dividing means;
optical coupling means for coupling the received beam with the local beam output from said delay line;
a photodetector for carrying out coherent detection of a light beam output from said optical coupling means; and
a signal processor for obtaining physical information about the target from the signal passing through the coherent detection by said photodetector, wherein said delay line further comprises;
a loop line;
an optical coupler for guiding the local beam output from said optical dividing means into said loop line, and for dividing part of the local beam traveling around said loop line, and wherein said optical coupler comprises;
an optical switch consisting of an acoustooptic device for supplying said loop line with local beam output from said optical dividing means and the local beam traveling around said loop line; and
an optical divider for dividing the local team traveling around said loop line.
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9. A coherent laser radar system comprising:
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a pulsed laser for oscillating a single wavelength pulsed laser beam;
optical dividing means for dividing the pulsed laser beam oscillated by said pulsed laser, and for outputting first part of the pulsed laser beam as a transmitted beam and second part of the pulsed laser beam as a local beam;
transceiver optical means for transmitting the transmitted beam to a target, and for receiving a light beam from the target as a received beam;
a delay line for delaying the local beam output from said optical dividing means;
optical coupling means for coupling the received beam with the local beam output from said delay line;
a photodetector for carrying out coherent detection of a light beam output from said optical coupling means; and
a signal processor for obtaining physical information about the target from the signal passing through the coherent detection by said photodetector, wherein said delay line comprises;
a loop line;
an optical coupler for guiding the local beam output from said optical dividing means into said loop line, and for dividing part of the local beam traveling around said loop line, and wherein said coherent laser radar system further comprises an optical amplifier connected between said delay line and said optical coupling means for amplifying the local beam.
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Specification
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Current AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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Original AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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InventorsSugimoto, Etsuo, Yanagisawa, Takayuki, Hirano, Yoshihito, Asaka, Kimio, Wadaka, Shusou, Ooga, Yasuisa
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Primary Examiner(s)Tarcza, Thomas H.
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Assistant Examiner(s)ANDREA, BRIAN K
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Application NumberUS09/758,421Publication NumberTime in Patent Office648 DaysField of Search356/27, 356/28.5, 356/3.01, 356/5.15, 342/104, 342/117US Class Current356/28.5CPC Class CodesG01S 17/10 using transmission of inter...G01S 7/4818 using optical fibresG01S 7/486 Receivers
