Scanning laser based system and method for measurement of distance to a target
First Claim
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1. A system for measuring the distance D between a first location and a second location, comprising:
- a transmitter located at the first location for producing an directing a scanning beam of electromagnetic energy toward the second location; and
a receiver, comprisinga plurality of signal-producing means placed in a predetermined spaced-apart configuration at the second location, each signal-producing means producing a signal when scanned by the scanning beam,means for measuring the time interval between the signals produced by the signal-producing means in response to the scanning beam,means for measuring the rotation of the transmitter relative to the configuration of the signal-producing means, andmeans for calculating the distance D based on the time interval between signals produced by the signal-producing means and correcting the calculated distance for the measured rotation of the transmitter relative to the configuration of the signal-producing means.
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Abstract
A distance-measurement system and method for its use. The system includes a transmitter located at one location and a receiver, at least portions of which are located at the second location. The transmitter produces a scanning beam of laser light that is narrow in its scanned direction and broad in the orthogonal direction. The beam is scanned at a substantially constant angular velocity. The receiver has at least a pair of apertures and associated photodiodes held in a predetermined configuration. The receiver measures the time interval between the times at which the apertures are illuminated by the scanning beam. Based on these time intervals, the receiver can calculate the distance from the first location to the second location. The scanned beam can also be polarized and the receiver can include polarization detection and a lateral effect cell to account for relative rotation and tilt of the transmitter and receiver.
41 Citations
18 Claims
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1. A system for measuring the distance D between a first location and a second location, comprising:
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a transmitter located at the first location for producing an directing a scanning beam of electromagnetic energy toward the second location; and a receiver, comprising a plurality of signal-producing means placed in a predetermined spaced-apart configuration at the second location, each signal-producing means producing a signal when scanned by the scanning beam, means for measuring the time interval between the signals produced by the signal-producing means in response to the scanning beam, means for measuring the rotation of the transmitter relative to the configuration of the signal-producing means, and means for calculating the distance D based on the time interval between signals produced by the signal-producing means and correcting the calculated distance for the measured rotation of the transmitter relative to the configuration of the signal-producing means.
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2. A system for measuring the distance D between a first location and a second location, comprising:
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a transmitter located at the first location for producing and directing a scanning beam of electromagnetic energy toward the second location; and a receiver located at the second location, comprising a plurality of sensors in a predetermined spaced-apart configuration, each sensor producing a signal when it senses the scanning beam, means for measuring the time interval between the signals produced by the sensors in response to the scanning beam, means for measuring the rotation of the transmitter relative to the configuration of the signal-producing means, and means for calculating the distance D based on the time interval between the signals produced by the sensors and correcting the calculated distance D for the measured rotation of the transmitter relative to the configuration of the signal-producing means.
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3. A system for measuring the distance D between a first location and a second location, comprising:
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a transmitter located at the first location for producing and directing a scanning beam of electromagnetic energy toward the second location, the scanning beam having a predetermined polarization relative to a frame of reference of the transmitter; and a receiver, comprising a plurality of signal-producing means placed in a predetermined spaced-apart configuration at the second location, each signal-producing means producing a signal when scanned by the scanning beam, means for measuring the polarization of the received scanning beam relative to the configuration of the signal-producing means, means for measuring the rotation of the configuration of the signal-producing means relative to the frame of reference of the transmitter from the relative polarization, means for measuring the time interval between the signals produced by the signal-producing means in response to the scanning beam, and means for calculating the distance D based on the time interval between the signals produced by the signal-producing means.
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4. A system for measuring the distance D between a first location and a second location, comprising:
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a transmitter located at the first location for producing and directing a scanning beam of electromagnetic energy toward the second location, the scanning beam having a predetermined polarization relative to a frame of reference of the transmitter; and a receiver located at the second location, comprising a plurality of sensors placed in a predetermined spaced-apart configuration, each sensor producing a signal when it senses the scanning beam, means for measuring the polarization of the received scanning beam relative to the configuration of sensors, means for measuring the rotation of the configuration of sensors relative to the frame of reference of the transmitter from the relative polarization, means for measuring the time interval between the signals produced by the sensors in response to the scanning beam, and means for calculating the distance D based on the time interval between the signals produced by the sensors.
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5. A system for measuring the distance D between a first location and a second location, comprising:
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a transmitter located at the first location for producing and directing a scanning beam of electromagnetic energy toward the second location; and a receiver, comprising a plurality of signal-producing means placed in a predetermined spaced-apart configuration at the second location, each signal-producing means producing a signal when scanned by the scanning beam, means for measuring the time interval between the signals produced by the signal-producing means in response to the scanning beam, the means for measuring the time interval being located at the second location and means for calculating the distance D based on the time interval between the signals produced by the signal-producing means, the means for calculating the distance D being located at the second location. - View Dependent Claims (6, 7)
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8. A system for measuring the distance D between a first location and a second location, comprising:
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a transmitter located at the first location for producing and directing a scanning beam of electromagnetic energy toward the second location; and a receiver located at the second location, comprising a plurality of reflective means in a predetermined configuration for producing a plurality of reflected pulses of electromagnetic energy by reflecting the scanning beam of electromagnetic energy toward the first location, said means being located at the second location, means for measuring the time interval between receipt of said plurality of said reflected pulses of electromagnetic energy, said means being located at the first location, and means for calculating the distance D based on the measured time intervals, said means being located at the first location. - View Dependent Claims (9)
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10. A system for measuring the distance D between a first location and a vehicle at a second location, comprising:
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a transmitter located at the first location for producing and directing a scanning beam of electromagnetic energy toward the vehicle, the beam being scanned at a substantially constant angular rate θ
about an axis that is fixed relative to a frame of reference of the transmitter; anda receiver supported by the vehicle at the second location, comprising a plurality of signal-producing means placed in a predetermined spaced-apart configuration, each signal producing means producing a signal when scanned by the scanning beam, signal processing means for measuring the time interval between the signals produced by the signal-producing means in response to the scanning beam, means for determining the tilt of an axis of the vehicle with respect to the direction to the first location, and processor means for calculating the distance D from the time interval and the tilt. - View Dependent Claims (11, 12, 13, 14)
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15. A method for measuring the distance D between a first location and a second location, comprising the steps of:
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(a) providing a scanning beam of electromagnetic energy; (b) directing the scanning beam from the first location toward the second location; (c) providing a plurality of signal-producing means responsive to the scanning beam in a predetermined spaced-apart configuration at the second location; (d) causing each signal-producing means to produce a signal when scanned by the scanning beam; (e) measuring the time interval between the signals produced by the signal-producing means; (f) measuring the rotation of the transmitter relative to the configuration of the signal-producing means; and (g) calculating the distance D based on the time interval between the signals produced by the signal-producing means and on the rotation of the transmitter relative to the configuration of the signal-producing means. - View Dependent Claims (16)
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17. A system for measuring the distance D between a first location and a second location, comprising:
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a transmitter located at the first location for producing and directing a scanning beam of electromagnetic energy toward the second location about an axis of a substantially constant angular rate θ
, the axis being fixed relative to a frame of reference of the transmitter; anda receiver located at the second location, comprising a plurality of sensors in a predetermined spaced-apart configuration, each sensor producing a signal when its senses the scanning beam, means for measuring the time interval between the signals produced by the sensors in response to the scanning beam, and means for calculating the distance D based on the time interval between the signals produced by the sensors. - View Dependent Claims (18)
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Specification
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Current AssigneeAmoco Corporation (BP PLC)
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Original AssigneeSpectra-Physics Incorporated (MKS Instruments Incorporated)
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InventorsShemwell, David M.
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Primary Examiner(s)Nelms, David C.
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Assistant Examiner(s)Allen, Stephone B.
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Application NumberUS07/163,854Time in Patent Office804 DaysField of Search250/560, 250/225, 356/1, 356/3, 356/4, 356/28US Class Current250/559.38CPC Class CodesG01S 11/12 using electromagnetic waves...
