SU638989A1 - Graphic information readout device - Google Patents

Description

I

The invention relates to automation and computational techniques, in particular, to devices dp reading graphic information presented, for example, in textual text structures.

Known devices are readable by the 1st graphic information.

The first of the known devices comprises a scancro {oii) unit, optically coupled to a laser. a graphic information representation unit, a zone analysis signal generation unit connected to the corresponding registers, outputs of which are connected to graphic information analysis units, a memory unit connected to the ll analysis and output units. This device has a low speed and speed of zero when there is a read on times a personal type of graphic information.

The closest to the invention in its technical essence is a device comprising a media carrier installation unit, which is optically associated with the formation of light beams, reception and reception of signpoints and connected

fifciii to; units for interleaving the information carrier {matsin and alignment of lines, the inputs of which are connected to the first and second switching units, a memory unit connected to an output unit connected to the symbol receiving and identification unit, and an error correction unit J.

This device, as well as the previous one, is characterized by a low speed-rate when reading the graphic and format of your headset of various types, for example, the textual and schematic structure presented in video; together.

The purpose of the invention is to improve the performance of a device.

Claims (2)

This is achieved by the fact that the device contains the first comparison unit, connected to the memory blocks and the error correction unit by the boarder, the comparison unit connected to the error correction unit and the first switching unit, photodetectors, whose inputs are optically connected to the media installation unit, and the outputs connected to the second unit of comparison, and the unit of forming the signal by returning the wave line volt, connected to the blocks of error prevention, receiving and defining the characters, while the output of one of the photodetectors is connected to the second unit m switching. On fig. 1 shows a text page, FIG. 2 is a block diagram of the device. The device includes a text page 1 with lines 2-11, a first light-beam forming unit 12 that forms a beam of light 13, a unit 14 for setting the information carrier & a unit 15 for identifying it. the symbol receiving the light beam 16, the first comparison unit 17, the second light forming unit 18 forming the light beam 19, which is converted in the beam of zero 2O and the first 21 diffraction orders, the photoreceivers 22 and 23, the second comparison unit 24, the first block switching unit 25, media carrier 26, second switching unit 27, line alignment unit 28, error correction unit 29, symbol return signal generating unit 30, output unit 31, and memory block 32. The device operates as follows. Text page 1 is presented for reading the graphic information (having the form of a sample obtained as a result of microfilming of the original Line 2, 3 (4, 5 and 7 consist of sequences of characters, line 6 is shortened, and line 8 contains sign and diagram 9 structures; in the area of line 1O, only the schematic structures 11 are represented. Block 12 forms a beam of 13 read rays that passes through the transparent text page 1 of block 14. A beam of read beams 13 is deflected inside the read window of block 14. The read window of It is perceived in such a way that it can perceive a line with the format of lines, 2, 3, etc. Block 15 registers a beam of read beams 16 carrying information. The second block 18 of forming light beams directs the beam of beams 19 at a certain angle to the read window. When row 2 is present in the reading window, it acts as a diffraction grating. Both beams of zero and none differential order 2O and 21 are used to search and align the string. With both beams 2O and 21 in photodetectors 22 and 23, a corresponding ektrichesky sir0 al. Both signals go to the second block of the equals 24. Signal, p Heats) 22, to search for lines from lock 24 goes to the first switching block 25, controlling through block 26 the continuous movement of the text page in block 14. The signal characterizing the beam of the first order of diffraction 21, is fed both to block 24 and to the second switching unit 27, which, through block 28, controls the alignment of block 14. Block 28 moves text page 1 until photoreceiver 23 receives the same intensity and thereby a difference will be obtained th signal zero. Block 24 is connected to block 15 through blocks 29 and 30. When the alignment of the lines is completed, for example, line 2 is read, and through output block 31 it is output to the information carrier. The line terminator turns on block 26 to reach the next row 3, and the process of searching and aligning the row is repeated again. In this example, the invention proceeds from an adjustment range, which is set depending on the distance between the lines of the text page 1 3 of the line-pull mechanism of the block 26. The adjustment range is the average distance between the lines of the text page 1 in the line-pull mechanism of the block 26 The adjustment range is the average spacing between lines 2 and 3, 3 and 4. The horizontal mechanism of block 26 is set in motion with a feeder motor or smooth. If a pinch motor is used, then the adjustment range is relatively accurate, for example, it can be divided into 60-8 ° steps. In order to ensure reliable line overlap, it is advantageous to make a maximum search for the mechanism for stretching the line of block 26 with a 5% overshoot of the adjustment band, if no maximum has been previously found. When the intensity reaches a maximum relative to line 3 on the photodetector 22 to search for rows, the line stretching mechanism of the block 26 stops. Line 3 is adjusted and read by triggering the read beams of beam 13. The same happens with line 4. If in the area of the span corresponding to the adjustment range, the line is not found, as is the case between lines 563 and 4 The block 26 stops after reaching the control range. Since the photoreceivers 22 and 23 do not register an unambiguous signal, block 29 is turned on. In this case block 30 does not work and therefore no return can occur and the readout process is not interrupted by interference elements. This leads to the conclusion of the empty line, which is in the original. In the general case, at the same distance between the lines, the minimum light incidence is recorded or if it is not at all by the photoreceivers 22 and 23. Besides the text structures, there are also circuit structures, then before reaching the next line, the photoreceiver must be considered significant For example, if the incidence of light during the horizontal stretch between lines 7 and 8 on the photodetector increases, then a single-digit maximum will not be reached until the control range is reached. Suppose that the distance between lines 7 and 8 is greater than the adjustment range, then the line read before this will be an empty line. As the photodetector 23 continues further, line 8 may be caught. Block 29 must remain on because of the circuit area, at least In the text area, it is turned off using the first comparison block 33 in order to work with an enhanced reliable identification. If, for example, line 6 does not read, because there are few characters on this line, or line 8, because the signal of this line blocks image noise, block 29 is turned on, eliminating erroneous returns when line 8 is passed by a read beam 13, In this case, in these lines 9 can get nponj-CKH IE due to ERROR OX: Flrtkov, which can be avoided by coping with the behavior in the neighboring region using: 31 with block 29, blocks 32 and 12, the introduction of new blocks and new constructive links significantly improves the speed of the device when reading graphic information presented in the form of various structures. Apparatus of the Invention A device for reading graphic information comprising an information carrier setting unit optically coupled to light beam forming units, character recognition and connected to media transfer units and line alignment whose inputs are connected to the first and second switching units, a memory unit, connected to an output unit connected to the character recognition unit, and an error correction unit, characterized in that, in order to improve the speed of the device, it contains the first a comparator unit connected to the memory and error correction units, a second comparator unit connected to the error correction unit and to the first switching unit, photodetectors, whose inputs are optically connected to the media carrier installation unit, and the outputs connected to the second comparison unit, and a symbol return signal generating unit connected to the error direction, symbol identification blocks, wherein the output of one of the photodetectors is connected to the second switching unit. Sources of information taken into account in the examination: 1.Patent of France No. 2131О86, cl. q 06 K a / OS, 1972. 2. US patent number 381OO94, cl. 340-116.3, 1974.  Czi one SHITZ iz: zz337 cizizrmD