JPH01500231A - Method for undistorted imprinting, inspection and identification of fingerprints and apparatus for carrying out this method - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Method for undistorted imprinting, inspection and identification of fingerprints and apparatus for carrying out this method The present invention provides a method for undistorted imprinting, inspection and identification of fingerprints and a method for implementing this method. related to the device.

Reflection prism for generating an image of an object placed at an angle to the imaging plane A device having a system is known from DE 34 21 220 A1 This prism receives light from a light source and is placed in front of the object to be imaged. Ru. The disadvantage of this arrangement is that rotational fingerprints (fingerprints collected by rolling the fingertip) Due to the concave platen used for generation, or by a number of optical accessories such as prisms and lenses. Even with a positive element, a flat field of view without distortion due to its high degree of astigmatism cannot be obtained. This means that it cannot be done. This large number of correction elements, which are susceptible to interference, reduces manufacturing costs. At the same time, maintenance and operating costs also increase.

The object of the invention is to provide a method by which "rotated" fingerprints can be identified easily and reliably, and a method for this method. The objective is to provide a device for carrying out this process.

According to the present invention, the problem is solved by rolling the finger of the person to be identified on a fingerprint platen, A fingerprint processing device creates an undistorted image with good contrast, and this fingerprint image digitize directly or record it with a video camera and then digitize it into the rotational motion of the finger. digitization by applying digitalization, and then digitalization of the fingerprint image. Generates a halftone image from the digital data and then converts this image into a binary image displayed on a monitor and/or stored in a storage device and/or printed. and/or by transmitting the information using a long-distance data transmission device.

According to another feature of the invention, the apparatus for carrying out the method receives light from a light source. The optical system is equipped with a reflective prism that is placed in front of the object that is imaged. This not only corrects for astigmatism, but also improves the distortion magnification of the imaged object. Optical lenses and polarizing prisms or polarizing optical wedges are also used for reflective It is arranged between the prism and the end of the optical system on the image side, and is provided with an indicating rolling plate. The output of the optical system connected to the video camera is connected to the intermediate optical system connected to the video camera. The camera is connected to a video recorder and/or a printer and long distance data An analog-to-digital converter connected to the computer transmitter line connected to a computer.

Embodiments of the invention are set out in the dependent claims and shown below in the drawings. described in detail.

Figure 1 is a block diagram of the device; Figure 2 is a perspective exploded view of the equipment; Figure 3 is a front view of the equipment; Figure 4 is a diagrammatic representation of the network of equipment; Figure 5 is a flowchart of the operating procedure of the equipment: It shows.

As shown in FIG. The optical system 2, which is arranged on the platen and receives light from a light source, is used as a fingerprint processing device. I am preparing for the 17th. Not only for astigmatism correction but also for distorted image magnification of the imaged object a polarizing prism or polarizing optical wedge that is also a polarizing prism or a polarizing optical wedge; and at least one optical lens. , arranged between the reflecting prism and the end of the optical system on the image side. fingerprint processing The device 17 is connected to a video camera 6 via an intermediate optical system 5. video camera Since the controller 6 can be connected to the video recorder 7, it can also be connected to the control monitor 11. I can do it. The other output of the video camera 6 is passed through an analog-to-digital converter 8. and the computer 9 connected to the printer 10 alternately or additionally. It is connected.

As shown in FIG. 2, a control monitor 1 is installed in the case 3 of the fingerprint processing device 17. 1 or/and a monitor 15 can be arranged. Close to the instruction rolling plate 4, A hand positioning surface 12 is provided (FIG. 2) used for fingerprinting; The output of the fingerprint processing device 17 is connected to a computer device 18, which The computer 9 may be provided as a microcomputer 13.

The microcomputer 13 has a diskette and/or disk storage device and/or or a streamer 14 and/or an optical storage device, and Possible trouble is connected to the video recorder 7. Connection used for data transmission The connecting member 16 can also be provided in the microcomputer 13. other The monitor 15 is located on the microcomputer 13 as far as possible.

The printer 10 connected to the Funviewter device 18 is a mosaic printer. It may be provided as

However, if you use a laser printer, LCS printer, or LED printer, One advantage is that it is possible to obtain images with exquisite tones. It is from. Alternatively, use a thermal printer or ink injection printer. It is also possible.

Connecting various fingerprint processing devices 17 to one specific computer device 18 This allows separate computer systems ff1B to be combined into one printer. 10 (FIG. 4).

The fingerprint image is generated on the instruction rolling plate 4 by rolling the finger of the person to be identified on the instruction rolling plate 4. Since it is obtained by rolling your finger, you can create an image by scanning it as you roll your finger. Scanning is done by finger rotation. Synchronized with rolling motion. The scanning speed may be controlled by a computer, or It is also possible to control the edge scanning speed by means of a specific measuring device that measures the rotational movement of the finger. It is Noh. Furthermore, a guiding device is provided which is used to accommodate the rotational movement of the finger. Can be done. Furthermore, a guide is used to adapt the rotational movement of the finger to the scanning speed. A tool can also be provided. The digitization method adapts to the rotational movement of the finger. It has become.

FIG. 5 shows the process of generating a fingerprint image using the device 1. Starting from 20 In step 21, the part of the finger adjacent to the part of the first hand where the finger is rolled on the rolling plate 4 is the part of the hand. Placed on the positioning surface 12, at 22 a good contrast is placed on the optical fingerprint processing device 17. An undistorted image with distortion is produced.

The image is captured by the video camera 6 at 23. After that, at 24, the monitor control screen is Decide to take a statue. In this case, the fingerprint is displayed during the finger rotation process and under direct control. The monitor at 25 performs each hand and control press to control and secure. – given above. 26, whether the image is to be stored in a videocassette; Determine.

In the case of storage, the finger rotation process and the controlled manual stamping are performed on the video recorder 7 at 27. is stored in a cassette.

Image processing produces a halftone image obtained from the original image and the video data, resulting in 28 The image is then processed by the computer 9 of the computer device 18. this middle The tonal image is converted to a binary image at 29. 30 monitor control images Rotation and display of the entire digitized fingerprint can be controlled if required by This is done in the same manner as the display of hand and control stamps by the monitor 11 or monitor 15.

32, when data must be stored in a specific image file image on a floppy disk or other storage medium such as a disk. can be stored and processed in files.

A decision is made at 34 to send the data to another computer 9. 35 including long-distance data transmission for processing, storage, rendering and/or printing at Data transmission between the two is performed. The decision whether to perform direct drawing is made at step 36. be called. This direct depiction or data organization and description or resultant printing used for identification. The lint is executed at 37. Print a complete image using printer 10 Whether or not to do so is determined in step 38. The print is made using a high-resolution laser at 39 For example, this is done in a 1:1 ratio by a printer. The process of imprinting a fingerprint is 40 Completed at.

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Claims (14)

[Claims] 1. The finger of the person to be tested or identified is rolled over a fingerprint platen and then passed through an optical fingerprint processing device. Produces distortion-free images with good contrast and directly digitizes fingerprint images Or record it with a video camera and then apply digitization to the rotational motion of the finger. The fingerprint image is then digitized by Generates a halftone image, then converts this image into a binary image and displays it on a monitor. displayed, and/or stored in storage, and/or printed, and/or transmitted over long distances. This method is characterized in that the data is transmitted by a separate data transmitting device. No stamping, inspection and identification methods. 2. By generating the fingerprint image from the scanning of a rotating finger, the scanning is equivalent to the rotational movement of the finger. 2. A method according to claim 1, characterized in that it is carried out in advance. 3. Claims characterized in that the scanning speed is controlled by a computer. Method according to box 2. 4. characterized in that the scanning speed is controlled by a measuring device that measures the rotational movement of the finger A method according to claim 2, in which: 5. The rotational movement of the finger is adapted to the scanning speed by means of a guide. A method according to claim 2. 6. The division of a digitized image into a single whole image. A method according to any one of claims 1 to 5, characterized in that: 7. A reflective prism placed in front of an object that receives light from a light source and forms an image. By providing it in the optical device, it can be used not only to compensate for astigmatism but also to improve image formation. Optical lenses and polarizing prisms or polarized light that are also used for distorted image magnification of objects A device in which an optical wedge is placed between the reflecting prism and the end of the optical system on the image side , the output of the optical system (2) with the finger rotary platen (4) is connected to the video camera (6). The video camera is connected to the intermediate optical system (5) connected to the video recorder. (7) and/or a circuit for a printer (10) and a long-distance data transmission device. The computer ( 9) according to any one of claims 1 to 6. Apparatus for enforcing the law. 8. A video camera (6) is placed in the optical system (2) and a video recorder ( 7) is connected to a control monitor (11) connected to , an apparatus according to claim 7. 9. A hand positioning surface (12) is arranged in the optical system (2) for taking fingerprints. Device according to claim 7 or 8, characterized in that: 10. A guide tool used for the finger to be imaged is installed on the finger rotary platen (4) of the optical system (2). 9. Device according to claim 7 or 8, characterized in that the device is 11. A computer (9) has a diskette and/or disk storage device and /or a microcomputer with a streamer (14) and/or an optical storage device; The device according to claim 7, characterized in that it is provided as a motor (13). Place. 12. The connection member (16) for long-distance data transmission is a microcomputer (13) Device according to claim 11, characterized in that it is arranged in a. 13. The printer (10) is a laser printer, LCS printer, or LED printer. Linters, mosaic printers, thermal printers, ink injection printers 8. Device according to claim 7, characterized in that it is provided as, etc. 14. Various microcomputers (13) and fingerprint processing devices (17) are connected to the network. Claims characterized in that the optical system (2) is connected to the optical system (2) in the network. Apparatus according to any one of 7 to 13.