RU50022U1 - READING AND STORAGE SYSTEM OF TEXT AND GRAPHIC INFORMATION - Google Patents

Abstract

Usage: reading and storage of text and graphic information. SUBSTANCE: system consists of a radiation source optically coupled to a photodetector and a diaphragm and a focusing element located between them. The radiation source is two groups of LEDs installed between the reading object and the focusing element with a diaphragm on both sides of the reading object symmetrically with respect to the optical axis. The photodetector of the system is made in the form of a multi-element matrix device. The outputs of the photodetector through a series-connected analog-to-digital converter, a microcontroller and an adapter are connected to a personal computer, additionally introduced into the system, using a high-speed interface. The microcontroller of the system is connected to a radiation source, an indication unit and a mode switching button. The personal computer software is configured to create and maintain a database of reading objects. The focusing element of the system is made in the form of a lens with high image quality.

Description

The proposed utility model relates to automation and computer technology, is designed to read and store text and graphic information, and can be used at border checkpoints at the customs control points of airports, railways and highways.

As an analogue of the claimed utility model, one can consider a device for determining the authenticity of documents (see RF patent for utility model No. 43986, IPC 7 G 07 D 7/00, G 06 K 9/00, which contains a scanner that works on the clearance of paper media, and a long-term memory unit, to which a personal computer is interfaced, providing a comparison of the digital image code of the document received by the scanner with its digital code extracted by the details from the long-term memory unit, as well as a document authenticity display unit connected to the output of a personal computer.The scanner is configured to shine through a document with white or soft x-ray radiation depending on the density and thickness of the paper and obtain an image of the spatial density distribution of each individual sheet of the document. The long-term memory unit uses the specified density distribution as an identifier. For a better fit to the surface scanner on a sheet of the document impose a transparent polymer film.

There is also a system for monitoring and registering a migratory population (see RF patent for utility model No. 32899, IPC 7 G 08 C 17/00, publ. 2003.09.27), characterized in that it contains a central computer with databases of migration cards and databases data of wanted persons. The central computer is connected to the computer

internal affairs bodies, containing a database of wanted persons, and with computers at check-out centers. The computers of the check-in centers of the leaving population are connected to means for reading information from migrant passports, means for recording information about a migrant on a migration card, and means for reading information from a migration card. A scanner was used as equipment that reads information from migrant passports.

In the systems described above, an image scan is used to read information from documents, in which a sequential “viewing” of the surface of the observed object is carried out: in the first example, the object is securities and other monetary documents, in the second, these are documents of a migrating population.

A common drawback of the analogs discussed above is the relatively low speed of scanners - devices for converting images printed on paper into digital code.

Readers, which are widely used in practice when processing text and graphic information, are also known, the main structural element of which is optical fiber (see, for example, the author's certificate of the Russian Federation for invention No. 1068954, class G 06 K 7/00, G 06 K 7/01, publ. 1984.01.23). The invention is intended for use in photo-reading devices and contains a housing at the base of which are placed: a light guide, coaxially mounted main and additional bushes, a main and additional glasses, a photocell optically connected to the light guide. The device is equipped with a rod, at one end of which there is a spherical surface with a photocell mounted on it. The spherical surface is pivotally fixed at the end of the main glass. The other end of the rod is connected with spring-loaded pushers and adjusting screws installed in the walls of the second additional glass. The disadvantage of this design is that the alignment of the photocell in

transverse planes using eccentric elements is a very complex and time-consuming process, since with a separate rotation of each of the eccentric elements, the photocell moves in two mutually perpendicular directions at once. In addition, after adjusting the photocell, it is possible to further displace it in the longitudinal direction.

These shortcomings are eliminated in the device for photo reading (see author’s certificate of the Russian Federation for invention No. 1833900, class G 06 K 7/01, publ. 1993.08.15), the feature of which is the presence of additional elements: frames, pendants, C-shaped elastic elements, a running nut, a pair of sliders and additional threaded bushings with screws. Two adjacent orthogonal guides for sliders are made on adjacent lateral sides of the frame. Additional threaded bushings are mounted on the suspension opposite the sliders, and the screws are placed with the possibility of free rotation in the sliders and are installed by the ends in the additional threaded bushings. A glass with a photocell is mounted on a suspension connected at the corners with the frame through C-shaped elastic elements. The running nut is mounted on the threaded surface of the main sleeve with the possibility of contacting its end surface with the housing, on which protrusions of the L-shaped form are made, located in an annular groove made on the side surface of the running nut. The accuracy of the described device is significantly improved by eliminating the displacement of the photocell when it is fixed after adjustment. However, the disadvantages of the device include the complexity of its design, low speed, the ability to work only with a certain type of storage medium, low efficiency during operation.

The closest in its technical essence to the proposed utility model is a device for reading a bar code (see author's certificate of the Russian Federation for invention No. 1837334, class G 06 K 7/10, publ. 1993.08.30). The device is intended for manual scanning and

automatic input of graphic information, in particular bar code, in automated control systems in industry, trade, communications and other fields. The graphic information reading device comprises a spherical lens, an optical radiation source, and a collecting lens, an aperture, and one or more photodetector elements aligned with the diaphragm located in the focal plane of the collecting lens mounted in series along the optical axis between the radiation source and the spherical lens. The device is assembled in a housing, the radiation source and photodetector elements are connected to an electrical circuit. The goal of the invention, namely, to reduce the loss of radiated and received light fluxes, is achieved in the invention - a prototype due to the fact that a spherical lens is installed in the device, mounted in front of the photodetector at a distance greater than the focal length of the spherical lens, and the diaphragm is located in the focal plane of the collecting lens . Moreover, due to the fact that the photodetector elements do not block the emitter flow, it almost completely enters the readable surface through a spherical lens. This is the advantage of a well-known technical solution. However, a significant disadvantage of the prototype is the small field of the scanned image, limiting the functionality of the device. In addition, the device does not provide for the storage of read information, which can also be attributed to the disadvantages of the device selected as a prototype. The disadvantages of the prototype should also include the impossibility of obtaining a read image of high quality, which is a consequence of the use as a focusing element of one collecting lens. The presence in the optical circuit of the device of such an element as a spherical lens is also a disadvantage of the device. This drawback is due to the high complexity of the manufacturing technology of spherical lenses, which is unacceptable in conditions of mass and large-scale production.

The objective of the utility model is to increase the field of the read image at a high read speed. In addition, an important task posed in the development of the claimed utility model is to expand the functionality of the system and simplify the technology of its production.

To solve the tasks, a system for reading and storing text and graphic information is proposed, which, like the device closest to it, selected as a prototype, consists of a radiation source optically coupled to a photodetector, and a diaphragm and a focusing element located between them. A feature of the proposed utility model that distinguishes it from the well-known technical solution adopted as a prototype is that the radiation source is two groups of LEDs installed between the reading object and the focusing element with a diaphragm on both sides of the reading object symmetrically with respect to the optical axis. The photodetector of the system is made in the form of a multi-element matrix device. The outputs of the photodetector through a series-connected analog-to-digital Converter, microcontroller and adapter are connected to a personal computer, additionally entered into the system, using a high-speed interface. The microcontroller of the system is also connected to a radiation source, an indication unit and a mode switching button. The personal computer software is configured to create and maintain a database of reading objects. The focusing element of the system is made in the form of a lens with high image quality.

The tasks set during the creation of a utility model, was made possible thanks to the following.

In the proposed utility model, due to the new construction of the optical scheme, a substantial increase in the reading field is provided

(the size of the working area is (95 × 125) mm. In contrast to the prototype, in which the illuminator is a point light source, in the claimed technical solution, the light source is two groups of LEDs installed between the reading object and the focusing element on both sides of the reading object symmetrically with respect to the optical axis. This embodiment of the lighting system provides high and uniform illumination throughout the reading field of the above size.

The focusing element is the lens (in the prototype it is a single collecting lens), for which, for example, industrially produced high-quality enlightened anastigmates with high resolution can be selected. The lens provides a high-quality image of the reading object, for example, a passport with a resolution of 400 dpi.

The implementation of the photodetector in the form of a multi-element matrix device made it possible to increase not only the reading speed, but also provided the possibility of a significant increase in the area of read information.

Another high feature included in the utility model formula, namely, a high-speed interface connecting a personal computer to a digital video system, also contributes to a high reading speed (0.5 sec) of an image with a working area of (95 × 125) mm.

Another task - expanding the functionality of the system is solved by introducing into the system the aforementioned personal computer with a whole range of programs that provide:

- the ability to automatically save data to the database;

- the ability to highlight photos, barcodes, etc .;

- the ability to assess image quality in real time;

- software image correction.

The remaining newly introduced essential features relating to new relationships between the blocks of the system for reading and storing text and graphic information, ensure the functioning of the claimed system.

Thus, the combination of the above features allows us to solve the tasks.

The proposed utility model is illustrated by drawings, on which:

in FIG. 1 is a functional diagram of a specific example of a system for reading and storing text and graphic information;

in FIG. 2 is an optical diagram of the proposed utility model.

The system for reading and storing text and graphic information (see figures 1, 2) consists of an optical-mechanical unit 1, which contains a receiving compartment 2, designed to accommodate a reading object 3, for example, a passport; a radiation source 4, intended for uniform illumination of the reading object 3, and consisting of two groups of LEDs 5 and 6, mounted on both sides of the reading object 3 symmetrically with respect to the optical axis of the system between the reading object 3 and the focusing element 7 with aperture 8 (see figure 2). As LEDs, for example, EL12-215SURC / S530-A2 / TR8 LEDs from Everlight Electronics Co., Ltd. can be used. The focusing element 7 is a variable focus lens, for which, for example, an ERNITEC 4-10 mm F 1: 8 lens (Japan) can be used. To ensure dust and moisture protection of the internal elements of the system, a protective glass 9 is installed between the radiation source 4 and the reading object 3. The focusing element (lens) 7 forms an image of the reading object 3 on the sensitive surface of the multi-element matrix photodetector 10, in

the quality of which can be used, for example, a SONY ICX 282 photodetector (Japan). To increase the efficiency of the device, the types of LEDs and photodetector are selected according to spectral characteristics. The outputs of the photodetector 10 through a series-connected analog-to-digital converter 11, a microcontroller 12 and an adapter 13 are connected via a high-speed interface 14 to a personal computer 15 in which a set of programs 16 is installed. Elements 10, 11, 12 and 13 form a digital video system 17.

The optical-mechanical unit 1 and the digital video system 17 are installed in the housing 18 of the device, schematically depicted in figure 1. On the housing 18 is a button 19 switching modes: “record” and “preview”, as well as two indicator diodes of the display unit 20, located in the housing 18 of the device. The microcontroller 12 of the digital video system 17 is connected to a radiation source 4, an indication unit 20 and a mode switching button 19. The system’s electrical power supply (12V DC) can be supplied from a 220 V, 50 Hz network using an external power supply unit 21 made in the form of an independent unit, or from a 12 V battery.

The system for reading and storing text and graphic information works as follows.

The reading object (passport) 3 is installed in the receiving compartment 2 of the optical-mechanical unit 1. The digital video system 17 responds to a change in the light flux and turns on the power of the LED boards 5 and 6. The system switches to the “preview” mode, in which the reading object 3 is displayed with increased frame rate and lower resolution. The operator, observing the position of the image of the reading object (passport) 3 on the monitor of the personal computer 15, sets the passport to the desired position and presses the button 19 to switch the modes to the “record” position. Luminous flux from groups

LEDs 5, 6 illuminate the reading object (passport) 3, reflected from it, passes through the focusing element (lens) 7, which transfers the image from the reading object 3 to the sensitive surface of the multi-element matrix photodetector 10, which converts modulated light radiation into electric current. Further, the read information through a series-connected analog-to-digital Converter 11, the microcontroller 12 and the adapter 13 via a high-speed standard interface 14 (USB 2.0) is supplied to the controller of the personal computer 15, in which it is converted for display on the monitor screen.

If the digital video system 17 has not responded to the change in the luminous flux, the operator can switch to the preview mode by setting the mode switch button 19 located on the device body 18 to the “preview” position.

Thus, in the inventive utility model, due to the construction of an optical system different from the prototype, and the new implementation of almost each of its elements, as well as the introduction of a personal computer with a set of programs into the system, it became possible to increase the field of the read image, to ensure high read speed, as well as significantly expand the functionality of the system.

Claims (1)

A system for reading and storing text and graphic information, consisting of a radiation source optically coupled to a photodetector and a diaphragm and a focusing element located between them, characterized in that the radiation source is two groups of LEDs installed between the readout object and the focusing element with a diaphragm both sides of the reading object are symmetrical about the optical axis, the photodetector is made in the form of a multi-element matrix device, the outputs of which are through The analog-to-digital converter, the microcontroller, and the adapter are connected electrically via a high-speed interface to a personal computer additionally introduced into the system, the software of which is capable of creating and maintaining a database of reading objects, while the focusing element is made in the form of a lens with high image quality , and the microcontroller is connected to a radiation source, an indication unit and a mode switching button.