Lidar arrangement for measuring atmospheric turbidities
First Claim
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1. A lidar for measuring various atmospheric turbidities, comprising means for transmitting a cone of linearly polarized radiation having a given apex angle;
- means for receiving backscattered radiation;
means for evaluating output signals from said receiving means with regard to different kinds of turbidities in the atmosphere;
timing means for controlling evaluation of the output signals from said receiving means with regard to different measuring distances;
said receiving means comprising a first and a second receiving device, each device having a reception region which is spatially separated from that of the other device;
the reception region of said first receiving device receiving a backscattered radiation part which substantially coincides with the transmitted radiation cone;
the reception region of said second receiving device receiving a part of the backscattered radiation which is substantially outside the cone of the transmitted radiation;
said receiving devices including a reception optical system designed such that the reception region of said second receiving device surrounds the reception region of said first receiving device;
said reception optical system including a polarization analysis optical member;
said first receiving device including first and second detecting mean arranged behind said polarization analysis optical member for detecting the intensities of radiation of parallel and perpendicular polarization with respect to the polarization direction of the transmitted radiation cone;
said second receiving device including first detecting means arranged with said polarization analysis optical member for detecting the intensity of scattered radiation.
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Abstract
The lidar arrangement (1) has a transmitter (3) for linearly polarized radiation (12), a receiver (5) with a first receiving device which measures intensity of the backscattered radiation (15) coinciding approximately with the transmitted radiation cone (12) in a polarization plane of the cone and in a perpendicular polarization plane, wherein the receiver further includes a second receiving device which measures the intensity of backscattered radiation (17) outside the transmitted cone (12), the outer backscattered radiation has the shape of a conical shell which surrounds the backscattered conical shell of the first mentioned backscattered radiation (15) and of the transmitted cone (12); the received separate radiation cones (15 and 17) are split in a polarization analyzing optical element into two mutually perpendicular partial light beams, each consisting of an inner partial beam portion (15a, 15b) and an outer partial beam portion (17a and 17b), the inner and outer partial beam portions are separately detected and the resulting output signals are amplified by an amplification factor which depends on the distance of the lidar from a visibility obstacle, the distance-corrected amplified signals are evaluated in a signal processing unit to distinguish between different kinds of the visibility obstacle, and the evaluated obstacle such as fog, rain, snow or solid obstacle and a distance thereof are indicated on corresponding indicators.
27 Citations
12 Claims
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1. A lidar for measuring various atmospheric turbidities, comprising means for transmitting a cone of linearly polarized radiation having a given apex angle;
- means for receiving backscattered radiation;
means for evaluating output signals from said receiving means with regard to different kinds of turbidities in the atmosphere;
timing means for controlling evaluation of the output signals from said receiving means with regard to different measuring distances;
said receiving means comprising a first and a second receiving device, each device having a reception region which is spatially separated from that of the other device;
the reception region of said first receiving device receiving a backscattered radiation part which substantially coincides with the transmitted radiation cone;
the reception region of said second receiving device receiving a part of the backscattered radiation which is substantially outside the cone of the transmitted radiation;
said receiving devices including a reception optical system designed such that the reception region of said second receiving device surrounds the reception region of said first receiving device;
said reception optical system including a polarization analysis optical member;
said first receiving device including first and second detecting mean arranged behind said polarization analysis optical member for detecting the intensities of radiation of parallel and perpendicular polarization with respect to the polarization direction of the transmitted radiation cone;
said second receiving device including first detecting means arranged with said polarization analysis optical member for detecting the intensity of scattered radiation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- means for receiving backscattered radiation;
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11. A warning device for signalling a distance of a motor vehicle from a viability obstacle, comprising a lidar installed in a motor vehicle, said lidar including means for transmitting a cone of pulsating radiation, the cone having a given apex angle;
- means for receiving a part of the transmitted radiation backscattered from an obstacle, the receiving means including two receiving devices each having reception region which is spatially separated from that of the other device;
polarization analyzing means arranged in said receiving means to split the backscattered parts of radiation received on said separate reception regions into two partial beams forming right angles one with the other;
each of said receiving devices having two electro-optical detectors arranged in the path of said partial beams to determine backscattered radiation intensity according to polarization components of radiation oriented parallel and perpendicularly to the polarization direction of the transmitted radiation cone;
means for evaluating output signals from said detectors to determine the kind of a visibility obstacle;
means for evaluating time intervals between transmitted and received radiation pulses to determine from distance of said obstacle; and
warning means for signalling the determined distance of a motor vehicle from said obstacle.
- means for receiving a part of the transmitted radiation backscattered from an obstacle, the receiving means including two receiving devices each having reception region which is spatially separated from that of the other device;
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12. A lidar for measuring various atmospheric turbidities, comprising means for transmitting a cone of linearly polarized radiation, said cone having a given apex angle;
- means for receiving backscattered part of the transmitted radiation, said receiving means having a first receiving device provided with first means for detecting intensity of receiving radiation backscattered in directions parallel to the transmitted cone and polarized parallel to the polarization direction of the transmitted cone;
second detecting means for detecting intensity of received radiation backscattered in the directions parallel to the transmitted cone and being polarized perpendicularly to the polarization direction of the transmitted rays; and
means for evaluating from the ratio of intensity signals of the first and second detecting means;
a second receiving device with means for detecting a part of the backscattered radiation which is outside the range of the radiation part received by said first receiving device;
said evaluating means measuring from the ratio of output signals of the detecting means of the second receiving device to the output signal of said first and/or second detecting means of said first receiving device the atmospheric turbidities; and
said first and second detecting means of the first detecting device receiving only the part of the backscattered radiation whose directions coincide with those of the transmitted cone.
- means for receiving backscattered part of the transmitted radiation, said receiving means having a first receiving device provided with first means for detecting intensity of receiving radiation backscattered in directions parallel to the transmitted cone and polarized parallel to the polarization direction of the transmitted cone;
Specification
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Current AssigneeDeutsches Zentrum Fur Luft- und Raumfahrt EV, Impulsphysik GmbH Federal Republic of Germany
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Original AssigneeDeutsches Zentrum Fur Luft- und Raumfahrt EV, Impulsphysik GmbH
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InventorsWerner, Christian, Streicher, Jurgen, Krichbaumer, Wilhelm, Herrmann, Hartmut, Oppel, Ulrich, Munkel, Christoph, Berghaus, Uwe F. W., Gelbke, Eberhard
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Primary Examiner(s)Buczinski, Stephen C.
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Application NumberUS07/416,652Time in Patent Office1,302 DaysField of Search356/4, 356/5, 356/342, 356/343, 356/364, 356/369, 364/424.01, 364/426.01, 364/426.04, 180/167US Class Current356/5.05CPC Class CodesG01S 17/95 for meteorological useG01S 7/499 using polarisation effectsY02A 90/10 Information and communicati...
