CN109002168B - Picture information conversion method and system - Google Patents

Abstract

The invention discloses a picture information conversion method and a system, wherein a picture is divided into bright and dark points, the bright points correspond to an electric input circuit, the dark points correspond to an electric-free input circuit, and then the input circuit corresponding to each point is connected with an information discriminator; the required resolution times are the same as the number of points in a specific picture, and an input circuit of a point corresponding to the current resolution times is used as a judgment circuit of the information resolution; finally, the resolution result is output from the same port of the information resolution device; when the picture information changes, the output port of the final resolution result also changes correspondingly, and the picture information can be effectively converted.

Description

Picture information conversion method and system

Technical Field

The invention belongs to the field of artificial intelligence, and particularly relates to a picture information conversion technology.

Background

For a long time, computers and various software are adopted as the information processing mode, and the information processing mode is invariable. Although the artificial intelligence is developed rapidly at present, no matter what algorithm is adopted, the method is greatly different from the intelligent information processing mode of people, and particularly, the method has great defects on the interconversion between the information, for example, picture information cannot be converted into action information and language information at the same time; the prior art has a plurality of technical difficulties for realizing the effect.

Disclosure of Invention

In order to solve the technical problems, the invention provides a picture information conversion method and a system, wherein a magnet and plastic input device is adopted to distinguish the bright point input circuit from the dark point input circuit in a picture, and the input circuit corresponding to the current resolution is adopted as the judgment circuit output by the information resolution device in the resolution process, so that the information of the same picture is output from the same port of the information resolution device, and a plurality of input circuits can distinguish a plurality of pictures.

The technical scheme adopted by the invention is as follows: a picture information conversion method comprises the following steps: the N input circuits are connected with the input end of the information discriminator; a total of N resolutions, 2 are required^NAn information discriminator; the number of information resolvers required for the kth resolution is 2^k-1A plurality of; k is 1,2, …, N; the kth input circuit is used as a judgment circuit of each information discriminator during the kth resolution; one information resolution device is correspondingly connected with two information resolution devices in the next resolution in the first N-1 resolution;

if the kth input circuit is not electrified, the kth resolution time information resolution device adopts a first output end to output; if the kth input circuit is electrified, the kth resolution time information discriminator adopts a second output end to output.

Further, points in the picture are divided into a bright point and a dark point; each point corresponds to an input circuit, and the input circuit comprises two input branches; the first input branch comprises: first triode and plastics input device specifically are: the grid electrode of the first triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the plastic input device; the second input branch comprises: the second triode and the magnet input device specifically comprise: the grid electrode of the second triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the magnet input device; the switching-off voltage of the first triode is greater than the switching-off voltage of the second triode;

dividing points in the picture into a bright point and a dark point; when the point in the picture is a dark point, the first triode is cut off, and the second triode is conducted; when the point in the picture is a bright point, the first triode and the second triode are both conducted; when the first triode is conducted, the plastic input device has no current output, and when the second triode is conducted, the magnet input device has current output.

Furthermore, the N input circuits can resolve 2 at most^NAnd (5) opening a picture.

A picture information conversion system comprising: n input circuits and 2^NAn information discriminator; 2 is described^NEach information resolution device is divided into N stages, each stage including 2^N-1An information discriminator; each information discriminator comprises an input end and two output ends; two output ends of each information resolution device of the first N-1 level are respectively connected with input ends of two information resolution devices of the next level; the N input circuits are connected with the input end of the 1 st-level information discriminator; and the kth input circuit is used as a judgment circuit of each information discriminator of the kth level; if the kth input circuit is not electrified, the kth-level information resolvers are output by adopting a first output end; if the kth input circuit is electrified, outputting by each information discriminator of the kth level through a second output end; k is 1,2, …, N.

Further, each input circuit comprises a first input branch and a second input branch, and the first input branch comprises: first triode and plastics input device specifically are: the grid electrode of the first triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the plastic input device; the second input branch comprises: the second triode and the magnet input device specifically comprise: the grid electrode of the second triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the magnet input device; the switching-off voltage of the first triode is different from that of the second triode;

when the judgment result of the point is a dark point, the first triode is cut off, and the second triode is conducted; when the judgment result is a bright point, the first triode and the second triode are both conducted; when the first triode is conducted, the plastic input device has no current output, and when the second triode is conducted, the magnet input device has current output.

Further, when electricity enters the magnet input device, the motor drives the magnet to rotate, an induced current is generated in a copper coil surrounding the outer side of the magnet, and the magnet input device outputs the current; when no electricity enters, the magnet input device does not output current.

The invention has the beneficial effects that: the picture information conversion method and the system thereof divide the picture into bright and dark points, the bright points correspond to the electric input circuits, the dark points correspond to the non-electric input circuits, and then the input circuits corresponding to the points are connected with the information discriminator; the required resolution times are the same as the number of points in a specific picture, and an input circuit of a point corresponding to the current resolution times is used as a judgment circuit of the information resolution; finally, the resolution result is output from the same port of the information resolution device; when the picture information changes, the output port of the final resolution result also changes correspondingly, and the picture information can be effectively converted.

Drawings

FIG. 1 is a schematic diagram of an information resolver;

fig. 2 is a schematic diagram illustrating a principle of converting picture information according to an embodiment of the present invention.

Detailed Description

In order to facilitate the understanding of the technical contents of the present invention by those skilled in the art, the present invention will be further explained with reference to the accompanying drawings.

In the embodiment of the invention, pixel points in a picture are extracted through a software algorithm, and classification of the pixel points according to bright points and dark points is realized by setting the brightness value intervals of the bright points and the bright points; the specific pixel point extraction process is the prior art, and is not described in detail in this embodiment.

In the embodiment, only one triode photoelectric switch can be switched on; and two triode photoelectric switches can be turned on at a bright point. The circuit of the triode switch which can be opened in a dark spot is connected with the plastic input unit, and the circuit which can not open the triode switch is connected with the magnet input unit; two lines can be opened at a lighting point, wherein one line is connected with the plastic input device, and the other line is connected with the magnet input device; when the picture is dark, a circuit can be opened, but no current is output after passing through the plastic input device, and the dark point of the circuit of the magnet input device cannot be opened. As a result, when the point in the picture is a bright point, there is a current output. When the point in the picture is a dark point, no current is output.

Thus, the points in the picture can correspond to one input circuit one by one, the dark points correspond to the non-electric input circuit, and the bright points correspond to the electric input circuit. The positions of the points in the picture and the positions of the circuits also correspond.

When electricity enters the magnet input device, the motor drives the magnet to rotate and the copper coil generates magnetic flux change, induced current is generated in the copper coil, and the magnet input device outputs an electric signal; when no electricity enters, the magnet input device does not output signals; the magnet input device can be realized by the following steps: the magnetic insulation device comprises a direct current motor, a magnetic insulation coil, a copper coil, a cylindrical magnetic insulation material and a circular magnet; DC generator's rotor and cylindrical ceramic material first end pass through welded connection, and cylindrical ceramic material that separates winds outward and separates magnetic coil, and cylindrical ceramic material second end and cylindrical magnet one end pass through welded connection, and cylindrical magnet winds copper coil outward. It should be noted by those skilled in the art that the implementation of the magnet input device is not this embodiment, but is merely for ease of understanding.

When electricity enters the plastic input device, the motor drives the plastic to rotate, magnetic flux change cannot be generated, and no induced current exists in the corresponding copper coil, namely, no output signal exists no matter whether the plastic input device enters the plastic input device or not. The plastic input device may be implemented as, including: the magnetic insulation device comprises a direct current motor, a magnetic insulation coil, a copper coil, a cylindrical magnetic insulation material and a circular plastic; the rotor of the direct current generator is connected with the first end of the cylindrical ceramic isolating material in a welding mode, the cylindrical ceramic isolating material is wound around the magnetic isolating coil, the second end of the cylindrical ceramic isolating material is connected with one end of the cylindrical plastic in a welding mode, and the cylindrical plastic is wound around the copper coil. It should be noted by those skilled in the art that the implementation of the magnet input device is not this embodiment, but is merely for ease of understanding.

The outputs of the magnet input device and the plastic input device are connected with the input end of the distinguishing unit; the resolution unit comprises a plurality of information resolvers; for identifying and then outputting all input circuits. As shown in fig. 1, the information discriminator at least includes an upper copper line and a lower copper line; as shown in fig. 1, a box represents the information discriminator body, a solid line represents an upper copper line, and a dotted line represents a lower copper line; the first end of the upper copper wire is used as the input end of the information discriminator; the second end of the upper copper wire and the second end of the lower copper wire are used as two output ends of the information discriminator.

The realization principle of the judgment circuit in the information discriminator is as follows: the method is realized by respectively connecting an upper copper wire and a lower copper wire at different positions on an insulator rod, and specifically, the insulator rod is provided with a first position, a second position and a third position; the first position fixes the upper copper wire, the second position fixes the lower copper wire, the third position fixes a thick iron wire, an electromagnet is arranged between the second position and the third position, the electromagnet can be fixed on the shell of the discriminator and is not connected with the insulating rod, and the position of the electromagnet is kept unchanged; initially, an upper copper wire is connected with an input end of an information discriminator, when a circuit used as a judgment input electromagnet is electrified, the electromagnet generates a magnetic field to attract a lower thick iron wire to ascend, so that an insulating rod ascends to drive the upper copper wire to ascend simultaneously, the upper copper wire is disconnected with the input end of the information discriminator, and the lower copper wire is connected with the input end of the discriminator through electromagnetic attraction; when the circuit as the judgement input electro-magnet does not have the electricity, thick iron wire falls because of the action of gravity for the input disconnection of below copper line and this information resolver, the input switch-on of top copper line and this information resolver.

The specific distance between the electromagnet and the thick iron wire can be set according to requirements, and the simpler setting mode is that the distance between the electromagnet and the third position is equal to the distance between the first position and the second position at the beginning; the electromagnet generates enough magnetic field to attract the coarse iron wire to rise after being electrified and adsorb the coarse iron wire on the lower surface of the electromagnet. However, it should be noted by those skilled in the art that the embodiments herein are only used for explaining the operation principle of the judgment circuit in the information resolution device of the present invention, and the specific judgment circuit may be any other feasible implementation form.

As shown in fig. 2, a resolution process of a 4-point picture is taken as an example for explanation; the 4 points comprise 2 dark points and 2 bright points; the sequencing is as follows in sequence: dark spot 1, bright spot 2 and dark spot 2; the dark spot 1 can open a triode switch, the opened circuit is connected with a plastic input device, and the plastic input device has no output current; the lighting point 1 can turn on two triode switches, wherein one triode switch is connected with a plastic input device, the plastic input device has no output current, the other triode switch is connected with a magnet input device, and the magnet input device has output current; the lighting point 2 can turn on two triode switches, wherein one triode switch is connected with the plastic input device, the plastic input device has no output current, the other triode switch is connected with the magnet input device, and the magnet input device has output current; the dark point 2 can open a triode switch, the opened circuit is connected with a plastic input device, and the plastic input device has no output current; in four circuits corresponding to the four points, the circuit 1 corresponding to the dark point 1 has no power, the circuit 2 corresponding to the bright point 1 has power, the circuit 3 corresponding to the bright point 2 has power, and the circuit 4 corresponding to the dark point 2 has no power.

The two triodes in this embodiment may be: the first triode is switched on and off at a voltage of 0.7, as long as the input voltage of a bright point is higher than 0.7, and the second triode is switched on and off at a voltage of 0.5, only if the input voltage of a dark point is lower than 0.7 and is more than or equal to 0.5.

In the specific distinguishing process, a kth input circuit is used as a judging circuit of each information distinguisher in the kth distinguishing process; if the kth input circuit is not electrified, outputting each information resolution device by adopting a first output end during the kth resolution; if the kth input circuit is electrified, outputting each information discriminator by adopting a second output end during the kth discrimination; k is 1,2, …, N; the specific resolution process is as follows:

for the first resolution, 2 is required^1-1The information resolution device adopts the input circuit 1 as a judgment circuit of the information resolution device for the first resolution; when the circuit 1 is distinguished, the input circuit 1 is not electrified, and the information distinguishing device does not output current; when the input circuit 2 is distinguished, because the input circuit 2 is electrified and is initially connected with a copper wire above the information distinguishing device, the judgment circuit judges that the input circuit 1 is not electrified, and therefore the input circuit 2 still outputs from the upper part of the information distinguishing device; when distinguishing the input circuit 3, because the input circuit 3 is electrified and is initially connected with a copper wire above the information distinguishing device, the judgment circuit judges that the input circuit 1 is not electrified, and therefore, the input circuit is still output from the upper part of the information distinguishing device; when the input circuit 4 is distinguished, the information distinguishing device does not output current because the input circuit 4 is not electrified; therefore, 2 circuits with electric outputs, namely the bright point 1 and the bright point 2, are distinguished for the first time;

for the second resolution, 2 is required^2-1The information resolution device adopts the input circuit 2 as the judgment circuit of the information resolution device for the second resolution; the output of the information resolution device during the first resolution is connected with a copper wire above the information resolution device during the second resolution; when the input circuit 2 is distinguished, the input circuit 2 is electrified and is initially connected with an upper copper wire of the information distinguishing device, and the judgment circuit judges that the input circuit 2 is electrified, so that the input circuit 2 is output from the lower part of the information distinguishing device; when distinguishing the input circuit 3, because the input circuit 3 is electrified and is initially connected with the copper wire above the information distinguishing device, and the judgment circuit is that the input circuit 2 is electrified, the input circuit is output from the lower part of the information distinguishing device;

for the third resolution, 2 is required^3-1The third resolution adopts the circuit 3 as a judgment circuit of the information resolution; the output of the information resolution device in the second resolution is connected with a copper wire above the information resolution device in the third resolution; when the input circuit 2 is distinguished, the input circuit 2 is electrified and is initially connected with an upper copper wire of the information distinguishing device, and the judgment circuit judges that the input circuit 3 is electrified, so that the input circuit 2 is output from the lower part of the information distinguishing device; resolutionWhen the circuit 3 is input, the input circuit 3 is electrified and is initially connected with the copper wire above the information discriminator, and the judgment circuit judges that the input circuit 3 is electrified, so that the input circuit is output from the lower part of the information discriminator;

for the fourth resolution, 2 is required^4-1The information discriminator adopts the input circuit 4 as the judgment circuit of the information discriminator for the fourth discrimination; the output of the information resolution device in the third resolution is connected with a copper wire above the information resolution device in the fourth resolution; when the input circuit 2 is distinguished, because the input circuit 2 is electrified and is initially connected with a copper wire above the information distinguishing device, the judgment circuit judges that the input circuit 4 is electroless, and therefore, the input circuit is output from the upper part of the information distinguishing device; when the input circuit 3 is discriminated, since the input circuit 3 is energized and initially connected to the upper copper wire of the information discriminator, the judgment circuit judges that the input circuit 4 is not energized, and therefore, the input circuit is output from above the information discriminator.

As shown in fig. 1, 4 circuits can identify the pictures represented by dark dots 1, light dots 2 and dark dots 2 after resolution for 4 times; similarly, the method can also identify 4 different pictures such as pictures represented by dark points, dark points and bright points, and pictures represented by bright points, bright points and bright points; that is, 4 circuits can identify 2 after 4 times of resolution⁴And (5) displaying pictures, wherein all the pictures with dark points are not output after being distinguished. And each picture with different dot orders (namely, the bright dot orders are different from the dark dot orders) is output from the same port of a certain discriminator after being resolved for the last time.

Therefore, the picture information distinguishing method can distinguish a plurality of pictures, and when the picture information changes, namely the sequence of light and shade points in the pictures changes, the final output port of the picture information also changes correspondingly after being distinguished by the distinguishing device; the method and the system simulate the intelligent recognition mode of human brain, can simultaneously recognize different characteristic images and output recognition results through independent channels; the method and the system are suitable for military encryption technology.

It will be appreciated by those of ordinary skill in the art that the embodiments described herein are intended to assist the reader in understanding the principles of the invention and are to be construed as being without limitation to such specifically recited embodiments and examples. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (4)

1. A picture information conversion method is characterized by comprising the following steps: n input circuits and 2^NEach information resolution device comprises an input end, a first output end and a second output end; a total of N resolutions, 2 are required^NAn information discriminator; the number of information resolvers required for the kth resolution is 2^k-1A plurality of; when resolving for the 1 st time, the N input circuits are connected with the input end of the information resolver; k is 1,2, …, N; the first output end and the second output end of one information discriminator during the first N-1 times of resolution are respectively connected with the input end of the information discriminator during the next time of resolution;

the kth input circuit is used as a judgment circuit of each information discriminator during the kth resolution; if the kth input circuit is not electrified, the kth resolution time information resolution device adopts a first output end to output; if the kth input circuit is electrified, the kth resolution time information discriminator adopts a second output end to output;

each point in the picture corresponds to an input circuit, and the input circuit comprises two input branches; the first input branch comprises: first triode and plastics input device specifically are: the grid electrode of the first triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the plastic input device; the second input branch comprises: the second triode and the magnet input device specifically comprise: the grid electrode of the second triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the magnet input device; the switching-off voltage of the first triode is greater than the switching-off voltage of the second triode;

dividing points in the picture into a bright point and a dark point; when the point in the picture is a dark point, the first triode is cut off, and the second triode is conducted; when the point in the picture is a bright point, the first triode and the second triode are both conducted; when the first triode is conducted, the plastic input device has no current output, and when the second triode is conducted, the magnet input device has current output.

2. The method as claimed in claim 1, wherein the N input circuits can resolve at most 2^NAnd (5) opening a picture.

3. A picture information conversion system, comprising: n input circuits and 2^NAn information discriminator; 2 is described^NEach information resolution device is divided into N stages, each stage including 2^N-1An information discriminator; each information discriminator comprises an input end and two output ends; two output ends of each information resolution device of the first N-1 level are respectively connected with input ends of two information resolution devices of the next level; the N input circuits are connected with the input end of the 1 st-level information discriminator; and the kth input circuit is used as a judgment circuit of each information discriminator of the kth level; if the kth input circuit is not electrified, the kth-level information resolvers are output by adopting a first output end; if the kth input circuit is electrified, outputting by each information discriminator of the kth level through a second output end; k is 1,2, …, N; each input circuit comprises a first input branch and a second input branch, and the first input branch comprises: first triode and plastics input device specifically are: the grid electrode of the first triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the plastic input device; the second input branch comprises: the second triode and the magnet input device specifically comprise: the grid electrode of the second triode is connected with the point judgment result circuit, and the source electrode of the first triode is connected with the magnet input device; the switching-off voltage of the first triode is different from that of the second triode;

dividing points in the picture into a bright point and a dark point; when the point in the picture is a dark point, the first triode is cut off, and the second triode is conducted; when the point in the picture is a bright point, the first triode and the second triode are both conducted; when the first triode is conducted, the plastic input device has no current output, and when the second triode is conducted, the magnet input device has current output.

4. The picture information conversion system according to claim 3, wherein when electricity enters the magnet input unit, the magnet is driven by the motor to rotate, and an induced current is generated in a copper coil surrounding the outside of the magnet, so that the magnet input unit has a current output; when no electricity enters, the magnet input device does not output current.

Images