Method and apparatus for measuring retroreflectivity of a reflective layer on a surface

US 4,721,389 A
Filed: 04/18/1985
Issued: 01/26/1988
Est. Priority Date: 04/18/1985
Status: Expired due to Term

First Claim

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1. A method of measuring retroreflectivity of a reflective layer on a surface, comprising:

illuminating a portion of said reflective layer with a laser beam of a predetermined wavelength emanating from a laser source while said portion is exposed to ambient light, said wavelength being in the range of from about 600 nm to about 650 nm and said laser beam being incident on said layer at a particular incidence angle (i), said incident beam being reflected in the direction generally back toward its source at least partially at a particular observation angle (o), said incidence angle and said observation angle being separated by a divergence angle (δ

);

filtering the laser light reflected at said observation angle through a narrow pass filter centered on said predetermined wavelength;

picking up said filtered light with a photometer; and

producing an electric signal corresponding to the amount of light incident on said photometer, said signal thus corresponding to the retroreflectivity of the illuminated portion of said reflective layer.

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Abstract

A retroreflectivity measuring system measures performance data relating to a reflective surface, such as a highway stripe or marking containing reflective glass beads. A laser beam illuminates a portion of the reflective surface with radiation of a predetermined wavelength, the laser being incident on the surface at an incidence angle i. The incident laser beam is then reflected back, at least partially, at a particular observation angle o that is separated from the incidence angle by a divergence angle δ. A telephotomultiplier aimed at the illuminated area receives the reflected laser beam at the observation angle o. A preferred telephotomultiplier includes a telescope, a narrow pass optical filter for passing basically only the wavelength of the laser beam, and a sensitive photoelectric device, such as a multiplier phototube. The laser and the telephotomultiplier may be mounted on a servo-motor driven frame in order to scan the target area from a moving vehicle.

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18 Claims

1. A method of measuring retroreflectivity of a reflective layer on a surface, comprising:
- illuminating a portion of said reflective layer with a laser beam of a predetermined wavelength emanating from a laser source while said portion is exposed to ambient light, said wavelength being in the range of from about 600 nm to about 650 nm and said laser beam being incident on said layer at a particular incidence angle (i), said incident beam being reflected in the direction generally back toward its source at least partially at a particular observation angle (o), said incidence angle and said observation angle being separated by a divergence angle (δ
  
  );
  
  filtering the laser light reflected at said observation angle through a narrow pass filter centered on said predetermined wavelength;
  
  picking up said filtered light with a photometer; and
  
  producing an electric signal corresponding to the amount of light incident on said photometer, said signal thus corresponding to the retroreflectivity of the illuminated portion of said reflective layer.
- View Dependent Claims (2, 3, 4)
- - 2. A method of measuring retroreflectivity according to claim 1, wherein said incidence angle (i) is less than said observation angle (o), such that said divergence angle (δ
    - ) corresponds to the angular relationship between the eye position of a driver of a vehicle and the headlight position thereof.
  - 3. A method of measuring retroreflectivity according to claim 1, wherein said incidence angle and said observation angle are on the order of about one to five degrees.
  - 4. A method of measuring retroreflectivity according to claim 1, wherein said incidence angle and said observation angle are between about 15°
    - and 60°
      
      .

5. A method of measuring retroreflectivity of a reflective stripe on a road surface, said strip containing beads of a generally transparent material, comprisingsweeping a laser beam across said stripe at a particular incidence angle relative to said stripe to illuminate an area of said stripe while the stripe is exposed to ambient light, said incident laser beam being reflected back at least partially at a particular observation angle;
- sweeping a telephotomultiplier across said stripe at said observation angle to trace the sweeping of the incident beam, said telephotomultiplier producing an output level related to the amount of said incident laser beam that is reflected back at said observation angle; and
  
  ascertaining said retroreflectivity based on the output level of said telephotomultiplier.

6. A method of measuring retroreflectivity of a reflective marking on a road surface, said marking containing reflective beads of a generally transparent material comprising:
- sweeping a laser beam emanating from a laser source across said marking at a particular incidence angle relative to said marking to illuminate an area of said marking while said area is exposed to ambient light, said incident beam having a predetermined wavelength in the visible spectrum and being reflected in the direction generally back toward its source at least partially at a particular observation angle;
  
  sweeping a telephotomultiplier across said marking at said observation angle to trace the sweeping of the incident beam, said reflected beam being filtered in said telephotomultiplier through a narrow pass filter centered on said predetermined wavelength and then incident on a photometer element, said photometer element producing an output level related to the amount of said incident laser beam that is reflected back at said observation angle; and
  
  ascertaining the retroreflectivity of said marking based on the output level of said telephotomultiplier.

7. A method of measuring retroreflectivity of a reflective light on a surface, comprising:
- illuminating a portion of said reflective layer with a laser beam of a predetermined wavelength emanating from a laser source while said portion is exposed to ambient light, said wavelength being in the range of from about 600 nm to about 650 nm and said laser beam being directed to incidence mirror means and being reflected thereby to be incident on an area of said layer at an incidence angle, said incident beam being reflected in the direction generally back toward its source at least partially at an observation angle;
  
  reflecting the light reflected back at said observation angle in observation mirror means;
  
  filtering the light reflected back from said observation mirror means through a narrow pass filter centered on said predetermined wavelength; and
  
  picking up the filtered light with a photometer corresponding to the amount of light incident on said photometer, said level thus corresponding to the retroreflectivity of the illuminated portion of said reflective layer.
- View Dependent Claims (8, 9)
- - 8. A method of measuring retroreflectivity according to claim 7, further comprising controllably rotating each of said mirror means to change said incidence angle and said observation angle.
  - 9. A method of measuring retroreflectivity according to claim 7, wherein said incidence angle and said observation angle are between about 15°
    - and 60°
      
      .

10. A method of measuring retroreflectivity of a reflective layer on a surface, comprising:
- illuminating a portion of said reflective layer with a laser beam emanating from a laser source while said portion is exposed to ambient light, said beam being of a predetermined wavelength, said laser beam being incident on said layer at a low incidence angle, said low incidence angle being on the order of about 1°
  
  to 5°
  
  from horizontal, said beam being reflected in the direction generally back toward its source, at least partially at a similarly low observation angle, said incidence angle and said observation angle being different from each other and separated by a divergence angle;
  
  measuring with a photometer the intensity of the laser light reflected back at said low observation angle;
  
  illuminating said portion of said reflective layer with said laser beam incident thereon at a high incidence angle, said high incidence angle being on the order of 15°
  
  to 60°
  
  from the horizontal, said beam being reflected in the direction generally back toward its source, at least partially, at a similarly high observation angle, said high incidence and observation angles being separated by a divergence angle;
  
  measuring with said photometer the intensity of the light reflected back at said high observation angle; and
  
  averaging the measured intensities of said reflected back light at said high and said low observation angles, thus producing an indication of the condition of the reflective layer.
- View Dependent Claims (11)
- - 11. A method according to claim 10, wherein said laser and said reflectometer are raised and lowered to change to and from said high and low angles of incidence and observation.

12. Apparatus for measuring the retroreflectivity of a reflective layer on a surface, comprising:
- laser illumination means for illuminating a portion of said reflective layer with a laser beam of a predetermined wavelength while said portion is exposed to ambient light, said wavelength being in the range of from about 600 nm to about 650 nm and said laser beam being incident on said layer at a particular incidence angle and being reflected in a direction generally back toward the laser illumination means at least partially at a particular observation angle;
  
  telephotomultiplier means for picking up the light reflected back at said observation angle, filtered the light over a narrow pass band centered on said predetermined wavelength, and producing an electrical level corresponding to the intensity of the filtered reflected light, and thus providing a measure of the retroreflectivity of said reflective light, and thus providing a measure of the retroreflectivity of said reflective layer; and
  
  means mounting said laser means and said telephotomultiplier means for aiming said laser means and said telephotomultiplier means for illuminating said layer at said incidence angle and receiving the light retroreflected therefrom at said observation angle.

13. Apparatus for measuring the retroreflectivity of a reflective highway marking layer on a surface, comprisinglaser illumination means for illuminating a portion of said reflective layer with a laser beam of a predetermined wavelength while said portion is exposed to ambient light, including means for expanding said laser beam to a beam width on the order of several inches, said expanded laser beam being incident on said layer at a particular incidence angle and being reflected back at least partially at a particular observation angle;
- telephotomultiplier means for picking up the light reflected back at said observation angle, filtering the light over a narrow pass band centered on said predetermined wavelength, and producing an electrical level corresponding to the intensity of the filtered reflected light, and thus providing a measure of the retroreflectivity of said reflective layer; and
  
  means mounting said laser illumination means and said telephotomultiplier means for illuminating said layer at said incidence angle and receiving the light retroreflected therefrom at said observation angle.

14. Apparatus for measuring the retroreflectivity of a reflective highway marking layer on a surface, comprising:
- laser illumination means for illuminating a portion of said reflective layer with a laser beam of a predetermined wavelength while said portion is exposed to amblient light, said wavelength being in the range of from about 600 nm to about 650 nm and said laser beam being incident on said layer at a particular selected incidence angle and being reflected in the direction generally back toward the laser illumination means at least partially at a particular observation angle;
  
  telephotomultiplier means for picking up the light reflected back at said observation angle, and having an objective end and an ocular end, a beam splitter at the ocular end of said telescope for splitting the beam emerging from said ocular end into first and second beams, an eyepiece disposed at said beam splitter for viewing said first beam, filter means disposed along said second beam for passing only light within a narrow band centered on the predetermined wavelength of said laser beam, and photometer means disposed after said filter means for producing an electric level in relation to the intensity of the filtered second beam incident thereon; and
  
  means mounting said laser means and said telephotomultiplier means for illuminating said layer at said incidence angle and receiving the light retroreflected therefrom at said observation angle.
- View Dependent Claims (15, 16)
- - 15. Apparatus according to claim 14, wherein said filter means includes a filter having a pass bandwidth of substantially one nanometer.
  - 16. Apparatus according to claim 14, wherein said filter means includes a filter holder and a filter removably disposed therein.

17. Apparatus for measuring the retroreflectivity of a reflective highway marking layer on a surface, comprising:
- laser illumination means for illuminating a portion of said reflective layer with a laser beam of a predetermined wavelength while said portion is exposed to ambient light, said wavelength being in the range of from about 600 nm to about 650 nm and said laser beam being incident on said layer at a particular incidence angle and being reflected back at least partially at a particular observation angle;
  
  telephotomultiplier means for picking up the light reflected back at said observation angle, filtering the light over a narrow optical pass band centered on said predetermined wavelength, and producing an electric level corresponding to the intensity of the filtered reflected light, thus providing a measure of the retroreflectivity of said reflective layer; and
  
  means mounting said laser illumination means and said telephotomultiplier means for illuminating said layer at said incidence angle and receiving the light retroreflected therefrom at said observation angle, the mounting means including a frame and controlled motor drive means on said frame for scanning said laser illumination means and said telephotomultiplier means across said reflective layer.
- View Dependent Claims (18)
- - 18. Apparatus according to claim 17, wherein said controlled motor drive means includes means for repeatedly sweeping said laser beam and said telephotomultiplier means across said reflective layer.

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Current Assignee
Potters Industries Inc.
Original Assignee
Potters Industries Inc.
Inventors
Dejaiffe, Robert
Primary Examiner(s)
LaRoche, Eugene R.
Assistant Examiner(s)
NOT, DEFINED

Application Number

US06/724,774
Time in Patent Office

1,013 Days
Field of Search

356/445, 356/447, 356/448
US Class Current

356/445
CPC Class Codes

G01N 2021/551 Retroreflectance

G01N 21/55 Specular reflectivity

Method and apparatus for measuring retroreflectivity of a reflective layer on a surface

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

48 Citations

18 Claims

Specification

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Method and apparatus for measuring retroreflectivity of a reflective layer on a surface

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

48 Citations

18 Claims

Specification

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Solutions

Use Cases

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