SU684568A1 - Graphic information readout device - Google Patents

Description

(54) THE DEVICE FOR READING GRAPHIC INFORMATION WITH THE CARTO is connected to the background video signal analysis unit, and the output is connected to the recording unit. The drawing shows a block diagram of the device (optical links are shown by dotted lines, and electric ones are solid). The device contains an optical-mechanical scanning unit 1, which serves to sequentially scan and form an optical image of a given area, a beam-splitting unit 2 designed to separate the light fluxes by their color chambers, video signal generation units and background signals 3, 4 for converting light signals in the electrical, the background video signal analysis unit 5, the line 6 color indicator highlighting unit, and the background 7 feature extraction unit, intended to generate the registration signals signs of color lines and the presence of background, blocks of differential transformation of signals of lines and background 8, 9, designed to form signals corresponding to the beginning and end of the elements along the scan line, and the registration unit 1O, allowing to record the signs of color lines, signs of background and coordinates scanned items. The device works as follows. With the help of block 1, the map area is scanned with the specified parameters. The reflected light flux from the map is transmitted via the optical system to the beam splitter unit 2, which, by means of deflecting elements, such as translucent mirrors or prisms, color filters and fiafragms, separates the light fluxes from scanned lines and background according to their color features. The light streams separated in this way enter the video signal forming unit of the lines 3 or the video signal forming unit of the background 4, where the signals are received, which are received by the incoming light cells. Next, the signal from the video signal forming unit of lines 3 is simultaneously fed to the differential conversion unit of the signals of lines 8 and the feature extraction unit. Line colors 6. The differential conversion unit of the signals of lines 8 forms narrow-band pulses whose leading fronts correspond to the middle of the scanned line. The block for marking the signs of the color of the lines selects the pulse that goes through a certain channel to the recording unit 10. Thus, the recording unit 10 will register the current coordinates X and Y of the scanned element and the indication of its color. At the same time, from the output of the video signal forming unit of the background 4, the signals arrive at the background video signal analysis unit by picking the background feature selection unit 7. The output signal of the background video signal analysis unit 5 appears only when the background image on the reading equipment, unit 1 take it half or most. Such a signal occurs when the edge of the image of the background begins to intersect with the optical axis of block 1. The signal from the output of the video background analysis block 5 simultaneously goes to the block for selecting the background feature 7 and the block for the differential conversion of the background signal 9. This signal opens block 7, which, if there are signals on two of its inputs generates a signal background feature. The background feature signal is fed to the registration unit 10. The differential conversion unit of the background signals 9, using the input signals from block 5, generates signals of the beginning and end of the background section along the scanning line. As a result, current X and Y coordinates of the scanned lines, signs of their color, a sign of the presence or absence of the background during the registration of the coordinates of the lines and the coordinates of the background image contours are recorded in the registration unit 1O. The current coordinates X and Y in the registration block 10 are determined by counting the number of periodic pulse oscillations arriving at the input of block 10 from block 1. The introduction of new blocks and new structural links allowed a 1.5–1.8-fold increase in the accuracy of devices . F-o pramula and 3 a b ii e and a device for reading graphic information containing an optomechanical scanner unit connected to a recording unit n optically coupled through a beam-splitting unit to video line players and background formation units, The block is allocated 1 npH3FU4KOB color lines connected to the video signal line generation and registration blocks, the line sipnal differential conversion block connected to the line video signal formation and registration blocks, characterized in that and accuracy of operation of the device, it contains a background video signal analysis unit, the input of which is connected to the background video signaling unit, a background feature selection unit, whose inputs are connected to the background video signal analysis and formation units, and the output is connected to the registration unit, and the unit differential transformations of the background signals, the input of which is connected to the background video signal analysis unit, and the turn path - to the registration unit.

Information sources; taken into account in the examination

1. US Patent M 3687543, cl. 355-52, pub. 1972.

2. Japanese Patent M 49-45936, cl. 97 (7) In 6, published. 1974.