SU883934A1 - Image identifying device - Google Patents

Description

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The invention relates to the field of technical cybernetics, in particular to devices for pattern recognition, and can be used to determine the maturity or yield of agricultural crops.

A pattern recognition device comprising a video camera, a sampling pulse generator, a level detector, a shift register, a computing unit is known, the inputs of the sampling pulse generator and the level detector are simultaneously connected to the video camera output, and their outputs are connected to separate shift register inputs whose outputs are connected with the corresponding inputs of the computing device ID.

The disadvantage of this device lies in the low reliability of recognition.

The closest to the proposed is a device containing a video signal sensor connected to the detector and a signal conditioner, a storage unit for standards, connected to a register, a decision unit connected to a register, and to a storage unit for standards G21.

The purpose of the invention is to increase the reliability of recognition.

The goal is achieved in that a device containing a television sensor, the output of which is connected to a pulse generator and a detector connected to a shift register, another input connected to a pulse generator, and a computing unit, are inserted in series with a sample driver connected to a pulse generator, a memory unit connected to the detector and to a computing unit, a comparison unit connected to the shift register, and an adder, whose other input is connected to the generator pv pulses, and the output is connected to you: an intelligent unit.

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The drawing shows the block diagram of the device.

The device includes a television sensor 1, a detector 2 (level), a generator of 3 pulses, a shift register 4,

25, a comparison unit 5, an adder 6, a memory unit 7, a computing unit 8, and a sampling signal generator 9.

The device works as follows.

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The video signal from the output of the television sensor 1, containing information about the characteristics of the underlying surface, is fed to the inputs of the generator 3 sample pulses (synchronizes its operation) and the detector 2 levels. For a particular sample, a threshold value is selected from memory block 7. When analog, the signal exceeds .poro.g, detector 2 generates an output signal in the form of a binary sequence. It enters the corresponding register input -A shift. .

Synchronously with the video signal, the sampling pulse generator 3 clocks its input signals with the signals from the level detector 2 into the shift register 4, and also starts the sampling signal generator 9, which controls the flow of information about the classes from memory block 7 to the comparison unit 5.

The signal about the surface area for an unknown class of culture, coming from the Level 2 detector to the corresponding register 4 input, is converted into a multi-bit parallel code. From the first output of block 7 of memory, codes of one-dimensional spaces with measures of belonging to classes are fed to the second input of block 5 of comparison. At the first input of the comparison unit 5, an object code of an unknown class is supplied.

In block 5 of the comparison, the identification of code values from the memory for one-dimensional spaces with each of the code bits of the input image is carried out. In case of coincidence of the value of a certain bit for the one-dimensional space with the corresponding bit in the image code, the measure of membership across all classes for a given value of the bit of the one-dimensional space adder 6 and accumulate in classes.

After analyzing all the bits of the accumulation code, information from adder 6 enters the computing unit 8, where the class of the input image is determined in accordance with the decision rule on the maximum of the total measure of class membership (as well as the membership measures for the other classes).

The introduction of new nodes and blocks, as well as new constructive links, has significantly improved the reliability of pattern recognition.

Claims (2)

1. US patent 3,978,324, cl. 340-146..3, 1976. 2. Japanese Patent No. 52-19416, cl. 97 (7) B 622, 1977 (prototype).