DEVICE FOR CONTACTLESSLY CONTROLLING THE SURFACE PROFILE OF OBJECTS

Abstract

The invention relates to the devices for contactlessly measuring surface profiles and can be used for person identification in security systems. The inventive device for contactlessly controlling surface profile comprises a pulse illumination unit which is provided with a transparency and forms a transparency image on an object surface, and image recording unit and a computer. Said device also comprises a control unit which is connected to the image recording unit in the form of a TV camera with field interlacing, the pulse illumination unit and to the computer for synchronizing the illumination of the object surface by said pulse illumination unit with the TV camera field and for synchronizing the image processing by the computer with the TV interlacing. The transparency is embodied in the form of a line screen provided with an aperiodical different width band structure and a uniform transmission along each band, thereby making it possible to identify the sequence of the line screen images on the object surface.

Description

This application is the National Stage of International Application No. PCT/RU2005/000160, published in Russian under PCT Article 21(2), filed Apr. 1, 2005, which claims priority to International Application No. PCT/RU2004/00315, filed Aug. 12, 2004, both of which are incorporated by reference in their entirety.

FIELD OF ENGINEERING THE INVENTION RELATES TO

The invention relates to the devices for contactlessly measuring surface profiles and can be used for person identification in security systems.

STATE OF THE ART

A device for contactless control of the surface profile of objects is known, WO 00/70303 of 23 Nov. 2000, comprising of a pulse illumination unit provided with a pulse light source and a transparency, which forms a transparency image on an object surface, an image recording unit and a computer, wherein the operation of the pulse illumination unit is synchronized with the operation of the image recording unit.

The disadvantage of this device lies in its inability to contactlessly control surface profiles of moving objects, when it is required to minimize the shift of the transparency image, recorded in the image recording unit, with respect to the corresponding image of the object surface, and a “smear” of images recorded in the recording unit. Besides, this device does not allow controlling the object surface profiles, which randomly appear for a short time in the field of view of the image recording unit.

INVENTION DISCLOSURE

The invention is aimed at providing a contactless control of the surface profiles of moving objects, which randomly appear and disappear in the field of view of the device.

A technical result of utilization of this invention is a periodicity of controlling the surface profile of a moving object as well as increase in control rate and accuracy. This also enables a maximum frequency of controlling the surface profile of a moving object—the field sweep frequency of a TV camera.

Described technical result is achieved by means of a device for contactless control of the surface profile of objects comprising a pulse illumination unit provided with a pulse light source and a transparency, which forms a transparency image on an object surface; an image recording unit and a computer; and additionally comprising of a control unit, which is connected to the image recording unit realized in the form of a TV camera with field interlacing, to the pulse illumination unit and to the computer for synchronizing the illumination of the object surface by said pulse illumination unit with the TV camera field and for synchronizing the image processing by the computer with TV camera interlacing.

In this case, the transparency of the pulse illumination unit can be realized to enable computer to recognize positions of images of its elements on the object surface. This allows for computer compensation for the decline in band image quality due to field interlacing.

The transparency can be realized in the form of a line screen provided with an aperiodic different width band structure and a uniform transmission along each band, thereby making it possible to identify the line screen images on the object surface.

TV camera can be realized with provided capability of changing the field sweep frequency.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a schematic of the device for contactless control of the surface profile of objects.

FIG. 2 shows transparency and its image distorted by the surface profile.

BEST EMBODIMENT

According to the schematic of the device for contactless control of the surface profile of objects shown in FIG. 1, this device comprises a pulse illumination block, which consists of a pulse light source 1, condenser 2, transparency 3 and projection lenses 4, TV camera 5, computer 6 and control unit 7. Control unit 7 is connected to the pulse light source 1, TV camera 5 and computer 6.

Optical axes of the projection lenses 4 and those of the TV camera 5 are positioned at an angle α with respect to each other. The image of the transparency 4 distorted by the surface profile of an object, for example, human face, is recorded by the TV camera and transmitted to the computer 6, which computes the height Z of the surface profile for a point with coordinates X,Y using the formula:
Z=ΔY/tan(α),
where ΔY is a measure of image band distortion of the transparency 4 shown in FIG. 2.

TV camera 5 is chosen to have field interlacing, i.e. the first half of the field is recorded with an interval between lines, and the second—also with interval between the lines of the field sweep, but with a shift with respect to the lines of the first half of the field.

During the time of full field recording, the recording unit records the transparency image during the first half-field. To achieve this, the control unit 7 along with the pulse illumination unit and TV camera synchronizes the illumination pulse from the pulse light source 1 with the first half of the field. During the second half of the field, the surface image of an object illuminated with some additional light source (natural or artificial) is recorded. An essential moment is the use of TV camera with field interlacing in combination with pulse illumination unit to record the transparency image, which enables high processing rate.

The control unit 7 synchronizes the time of image processing by the computer 6 with the field sweep frequency of TV camera 5. The field sweep frequency is chosen based on anticipated movement rate of an object.

Realizing transparency 3 in the form of a linear pattern with aperiodic structure (not shown in FIG. 2) enables improved accuracy of determining the width of the band image, since relative variation of the bands in the transparency is known. Presence of variable width bands positioned aperiodically with respect to each other provides higher accuracy detection of their distortion orthogonally to the band direction over short period of time.

Claims

1. A device for contactlessly controlling surface profile of objects comprising a pulse illumination unit provided with a pulse light source and a transparency, which forms a transparency image on an object surface, an image recording unit and a computer, provided that the operation of the pulse illumination unit is synchronized with the operation of the image recording unit, wherein included additionally is a control unit, which is connected to the image recording unit realized in the form of a TV camera with field interlacing, to the pulse illumination unit and to the computer for synchronizing illumination of the object surface using a pulse illumination unit with the TV camera half-field and for synchronizing image processing by the computer with a TV camera field sweep.

2. A device according to claim 1, wherein a transparency is realized in the form of a line screen with aperiodic structure of the variable width bands and uniform transmission along each band, thereby making it possible to identify a sequence of the line screen images on the object surface.

3. A device according to claim 1, wherein a TV camera is realized to allow variation in field sweep frequency.