SU1698890A1 - Data input device - Google Patents

Abstract

The invention relates to computing and can be used in television image processing devices, as well as information having a personnel structure. The purpose of the invention is to increase the speed and expand the field of application of the device. The device for entering information contains descramblers, a delay element, registers, counters, AND elements, triggers, multiplexers, an OR element, and a random access memory block. Discrete television signal is fed to the input 34 of the video data of the device. The video signal is synchronized with the help of clock, line and frame clock pulses, arriving at the inputs 31, 32 and 33 devices, respectively. Information is entered into the computer block by block, the coordinates of the location of the block of information in the image frame and

Description

its scale is set by computer. New in the device is the possibility of entering into the computer elements from the block of information on automatically generated spiral scan with setting the initial point of the spiral deployment from the computer, as well as the possibility of entering the current address of the spiral scan into the computer. This way

reading can be used in solving many applied tasks of processing visual information, in particular when searching for objects in an image, when determining the sizes and coordinates of objects in an image when filtering images with different apertures, etc. 2 ill., 1 tab.

The invention relates to computing and can be used in devices for processing television and X-ray television images, as well as information having a personnel structure.

A device for inputting information is known, which contains the first-third counters, a control unit, a pulse generator, a register, an analog-to-digital converter and a comparison unit. The first and second inputs of the control unit and the third input of the control unit, connected to the reset input of the first counter, are the first and second synchronization inputs and the Start input of the device, respectively. The first output of the control unit is connected to the counting input of the first and the Reset input of the second counter, the second output to the counting input of the second, the Reset input of the third and the input of the pulse generator, the output of which is connected to the counting input of the third counter. The outputs of the first counter are connected to the inputs of the first group of the comparison unit, the output of which is connected to the strobe input of the analog-digital converter, the output of which and the outputs of the register and the second counter are the information and the first and second control outputs of the device, respectively. The analog-to-digital converter input is the information input of the device.

The disadvantage of this device is low speed due to the low speed of image input.

Closest to the present invention is an information input device containing a decoder (first), the first output of which is connected to the clock input of the first register, whose information input is connected to the information input of the device, the second register, the clock input of which is connected to the second output of the decoder, the third output which is connected to the clock input of the third register, the output of which is connected to the information input of the fourth counter,

the counting input of which is connected to the output of the second multiplexer, the first information input of which is connected to the overflow output of the third counter, the information input of which is connected to the output of the first register, the first counter, the information input of which is connected to the output of the first register, the second counter, the information input of which is connected to

the output of the second register, the information input of which is connected to the information input of the device, the first multiplexer, the first information input of which is connected to the overflow output of the first counter, the download input of which is connected to the overflow output of the first counter, the counting input of which is connected to the input of the clock sync pulses of the device, the first trigger, the reset input of which is connected to the output of the sixth bit of the second counter, the counting input of which is connected to the output of the first multiplexer, the control input to orogo connected to the output of the first flip-flop set input

which is connected to the overflow output of the second counter, the outputs of five bits of which are connected to the lower five bits of the first information input of the third multiplexer, the upper five bits of which are connected to the outputs of five bits of the fourth counter, the output of the sixth bit of which is connected to the reset input of the second trigger, whose installation input is connected to the overflow output

the fourth counter, the boot input of which is connected to the input of the device clock sync pulses, the fourth multiplexer, the first information input of which is connected to the output of the And (first) element,

the first input of which is connected to the output of the first trigger, the RAM block, the address input of which is connected to the output of the third multiplexer, the control input (first) of which is connected to the fourth output of the decoder, the information input of which is connected to

input device commands. The information input of the third register is connected to the information input of the device, the download input of the second counter is connected to the input of the device's horizontal sync pulses, the second information input of the first multiplexer is connected to the input of the device clock sync pulses, the download input of the third counter is connected to the overflow output of the third counter, the counting input which is connected to the input line sync pulses of the device.

The control input of the second multiplexer is connected to the output of the second trigger, the second information input of the second multiplexer is connected to the input of the device built sync pulses, the second information input of the third multiplexer is connected to the address input of the device, the control input of the fourth multiplexer is connected to the fourth output of the decoder, the output the fourth multiplexer is connected to the access input of the RAM unit, the mode input of which is connected to the fourth output of the decoder, the second information input One of the fourth multiplexer is connected to the device's input. The data input of the RAM block is connected to the video input of the device, the output of the RAM block is connected to the information output of the device, the second input of the ele- mentary element I is connected to the output of the second Tpni, the third input of the I element is connected to the input of the clock sync pulses of the device.

The disadvantage of this device is the only method of inputting a block of image elements into a computer, which is characterized by the need to form and supply the address of each readable image element to the device, which limits the scope of application of this device.

The purpose of the invention is to increase speed and expand the field of application of the device due to the possibility of inputting image elements by automatically generated spiral scan and the current address of this scan.

The goal is achieved in that the device containing the first decoder, the first output of which is connected to the clock input of the first register, the second register, the clock input of which is connected to the second output of the first decoder, the third output of which is connected to the clock input of the third register, the output of which is connected to information input of the fourth counter, the counting input of which is connected to the output of the second multiplexer,

the first information input of which is connected to the overflow output of the third counter, the information input of which is connected to the output of the first register, the first counter, the information input of which is connected to the output of the first register, the second counter, the information input of which is connected to the output of the second register, the first multiplexer, the first information input which is connected to the overflow output of the first counter, the download input of which is connected to the overflow output of the first counter, the counting input of which is connected to the input the clock sync pulse house, the first trigger, whose installation input is connected to the overflow output of the second counter, the counting input of which is connected to the output of the first multiplexer, the control input of which is connected to the output of the first trigger, the reset input of which is connected to the output of the sixth digit of the second counter, output five bits of which are connected to five lower bits of the first information input of the third multiplexer, five high bits of which are connected to the output of five bits of the fourth account The sixth bit output of which is connected to the reset input of the second trigger, the installation input of which is connected to the overflow output of the fourth counter, the load input of which is connected to the input of the device clock sync pulses, the first And element, the first input of which is connected to the output of the first trigger, operational memory block TI, whose address input is connected to the output of the third multiplexer, the first control input of which is connected to the fourth output of the first decoder, whose information input is connected to the input of The device's commands, the fourth multiplexer, the first information input of which is connected to the output of the first element I, the second input of which is connected to the output of the second trigger, the load input of the second counter connected to the input of the horizontal sync pulses of the device, the second information input of the first multiplexer is connected to the input of the clock sync pulses of the device, the second information input of the third multiplexer is connected to the input of the device address, the download input of the third counter is connected to the overflow output of the third account A count, the counting input of which is connected to the input of the device's lowercase sync pulses, the control input of the second multiplexer is connected to the output of the second trigger, the second information input of the second multiplexer is connected to the input

horizontal sync pulses of the device, the third input of the first element I is connected to the input of the clock sync pulses of the device, the input of the memory block is connected to the output of the fourth multiplexer, the second information input of which is connected to the input of the device, the data input of the memory block is connected to the input of the video data of the device, the output of the RAM block is connected to the information output of the device; a delay element is additionally introduced, the input of which is connected to the sixth output of the first desh the seventh output of which is connected to the access address of the fourth register, five lower bits of the information input of which is connected to the output of the seventh counter, the repair input of which is connected to the first output of the second decoder, the first discharge input of which is connected to the inverse output of the third trigger, the information input of which is connected to the inverse output of the third trigger, the clock input of which is connected to the overflow output of the sixth counter, the information input of which is connected to the information the th output of the fifth counter, the incremental input of which is connected to the direct output of the third trigger, the reset input of which is connected to the sixth output of the first decoder, the second element And, the first input of which is connected to the output of the delay element, the fourth trigger, whose information input is connected to the inverse output the fourth trigger, the clock input of which is connected to the inverse output of the third trigger, the eighth counter, the incremental input of which is connected to the third output of the second decoder, the input of the second discharge which is connected to the inverse output of the fourth trigger, the reset input of which is connected to the sixth output of the first decoder, the OR element, the first input of which is connected to the fourth output of the first decoder, the information inputs of the first, second and third registers are connected to the address input of the device, the information input of the fifth counter connected to the input of a constant, the input of the loading of the sixth counter is connected to the output of the second element And, the second input of which is connected to the overflow output of the sixth counter, decrementing input which is connected to the device's input, five lower bits of the information input of the third multiplexer are connected to the output of the seventh counter, the decrementing input of which is connected to the second output of the second decoder, the fourth output of which is connected to the decrementing input of the eighth counter, the download input of which

connected to the sixth output of the first decoder; the five most significant bits of the third information input of the third multiplexer are connected to the output of the eighth counter, the information input of which is connected to the device address input, the second control input of the third multiplexer is connected to the fifth output of the first decoder, the second reference input the decoder is connected to the inversion input of the device, the download input of the seventh counter is connected to the sixth output of the first decoder, the information input of the seventh counter is connected to in home address of the device, the second input of OR

0 is connected to the fifth output of the first decoder, the input of the operating unit block mode is connected to the output of the OR element, the control input of the fourth multiplexer is connected to the output of the OR element,

5 five higher bits of the information input of the fourth register are connected to the output of the eighth counter, the clock input of the fourth register is connected to the device's input, the output of the fourth

The 0 register is connected to the output of the device address, the read inhibit output of the device is connected to the output of the second flip-flop. Introduction to the device of the fourth register, from the fifth to the eighth counters,

5 of the second decoder, the third and fourth triggers, the delay element, the second AND element and the OR element, allows to expand its field of application. In the claimed technical solution introduction

These 0 elements are used in conjunction with the introduction of new connections between them and other elements of the device. Only their relationship provides the possibility of obtaining a positive effect, and

5 it is the possibility of expanding the range of tasks solved by the proposed device by introducing the reading mode of the image block in a spiral with automatic generation of the address of the readable image element, the starting point of the spiral unfolding is set from the computer by the preset of the seventh and eighth counters, the modification of the values at the outputs of which is performed by gating5 nor by the pulses of the second decoder, which converts the signals from the outputs of the third and fourth flip-flops into a unitary code modi ation supplied to the incremented dekrementiruyu- Suitable inputs of the seventh and eighth counters.

The fifth and sixth counters form a sequence of pulses necessary for the correct operation of the third and fourth triggers. When recording the spiral deployment point, the value of the constant is written to the fifth counter and, using the delay element and the second And element, also to the sixth counter. The values from the output of the seventh and eighth counters through the third information input of the third multiplexer are fed to the address input of the RAM block. With the arrival of each access signal that enters the input of the RAM block mode via the fourth multiplexer switched by the OR element, the address in the seventh and eighth counters is modified so that the addresses of the elements of the image block are spirally scanned. The current address of the sweep is fixed in the fourth register and can be read from the output of the device address with the help of a signal from the latent output of the first decoder.

Thus, only the joint use of the indicated signs allows to expand the field of application of the proposed device. Among the known technical solutions of devices in which the indicated signs reveal the same properties as in the proposed technical solution, not detected. Therefore, we can conclude that this technical solution complies with the criterion of significant differences.

FIG. 1 shows a diagram of the device; in fig. 2 is a timing diagram explaining the principle of operation of the device when generating spiral scan addresses.

The device for entering information contains the first decoder 1, the delay element 2, the first to the third registers 3–5, the fifth and sixth counters b and 7, the second element I 8, the first and second counters 9 and 10, the third and fourth triggers 11 and 12, the first multiplexer 13, the first trigger 14, the third multiplexer 15, the second decoder 16, the seventh and eighth counters 17 and 18, the third and fourth counters 19 and 20, the element OR 21, the second multiplexer 22, the second trigger 23, the first element And 24, block 25 RAM, the fourth multiplexer 26, the fourth register 27, the inputs of the command 23, constants 29, addresses 30, clock 31, lowercase 32, and personnel 33 sync pulses, video data 34, references 35, read-out outputs 36, information 37, addresses 38.

The first output of the first decoder 1 is connected to the clock input of the first register 3, the information input of which is connected to the input 30 of the device address. The second output of the first decoder 1 is connected to the clock input of the second register 4, the output of which is connected to the information input

The second counter 10, the counting input of which is connected to the output of the first multiplexer 13, the first information input of which is connected to the overflow output of the first counter 9, whose information input is connected to the output of the first register 3. The third output of the first decoder 1 is connected to the clock input of the third register 5, output which is connected to the information input of the fourth counter 20, the counting input of which is connected to the output of the second multiplexer 22, the first information input of which is connected to the overflow output of the third Counter 19, the information input of which is connected to the output of the first register 3. The seventh output of the first decoder 1 is connected to the reverse input of the fourth register 27, five lower bits of the information input of which is connected to the output of the seventh counter 17, the incremental input of which is connected to the first output of the second the decoder 16, the input of the first bit of which is connected to the inverse output of the third trigger 11, the information input of which is connected to the inverse output of the third trigger 11, the clock input of which is connected to the overflow output of the sixth counter 7. The information input of the counter 7 is connected to the information output of the fifth counter 6, the incremental input of which is connected to the direct output of the third trigger 11, the reset input of which is connected to the sixth output of the first decoder 1, the information input of which is connected to the input 28 of the command devices. The input of delay element 2 is connected to the sixth output of the first decoder 1, the output of delay element 2 is connected to the first input of the second element 8, the second input of which is connected to the overflow output of the sixth counter 7, the input of which is connected to the output of the second element 8. the input of the second register 4 is connected to the input 30 of the device address, the information input of the third register 5 to the input 30 of the device address, the information input of the fifth counter 6 to the input 29 of a constant. A decrementing input of the sixth counter 7 is connected to the inversion input 35 of the device. The load input of the first counter 9 is connected to the overflow output of the first counter

9, the counting input of which is connected to the input 31 of the clock sync pulses of the device. The output of five bits of the second counter 10 is connected to five lower bits of the first information input of the third multiplexer 15, five higher bits of which are connected to the output of five bits of the fourth counter 20, the output of the sixth bit of which is connected to the reset input of the second trigger 23, the installation input of which is connected to the overflow output of the fourth counter 20, the loading input of which is connected to the input 33 of the device clock pulses. The output of the sixth bit of the second counter 10 is connected to the reset input of the first trigger 14, the installation input of which is connected to the overflow output of the second counter 10, the loading input of which is connected to the input 32 of the device sync pulses. The information input of the fourth trigger 12 is connected to the inverse output of the fourth trigger 12, the clock input of which is connected to the inverse output of the third trigger 11, the reset input of the fourth trigger 12 is connected to the sixth output of the first decoder 1. The control input of the first multiplexer 13 is connected to the output of the first trigger 14 , the second information input of the first / about multiplexer 13 is connected to the input 31 of the clock sync pulses of the device. Five lower bits of the third information input of the third multiplexer 15 are connected to the output of the seventh counter 17, the decrementing input of which is connected to the second output of the second decoder 16, and the input of the second bit of which is connected to the inverse output of the fourth trigger 12. Five higher bits of the third trigger information input of the third multiplexer f5 is connected to the output of the eighth counter 18, the incremental input of which is connected to the third output of the second decoder 16, the fourth output of which is connected to decrementing named by the input of the eighth counter 18, the boot input of which is connected to the sixth output of the first decoder 1. The first control input of the third multiplexer 15 is connected to the fourth output of the first decoder 1, the second control input of the third multiplexer 15 is connected to the fifth output of the first decoder 1, the output of the third the multiplexer 15 is connected to the address input of the RAM 25, the mode input of which is connected to the output of the OR element 21, the first input of which is connected to the fourth output of the first decoder 1. The second information the third multiplexer input45 is connected

with the device address input 30, the access address of the second decoder 16 is connected to the device input input 35, the download input of the seventh counter 17 is connected to the sixth output of the first decoder 1. Information input of the seventh counter

17 is connected to the input 30 of the device address, the information input of the eighth counter

18- with input 30 of the device address, input 0 of the load of the third counter 19 - with the output

overflow of the third counter 19, the counting input of which is connected to the input of 32 horizontal sync pulses of the device. The second input element OR 21 is connected to

5 fifth output of the first decoder 1, the control input of the second multiplexer 22 - with the output of the second trigger 23, the second information input of the second multiplexer 22 - with the input of 32 horizontal sync pulses of the device, the first input of the first element And 24 is connected to the output of the first trigger 14, the second the input of the first element And 24 -c output of the second trigger 23. The output of the first element And 24 is connected to the first

5 information input of the fourth multiplexer 26, the control input of which is connected to the output of the OR element 21. The third input of the first element AND 24 is connected to the input 31 of the device's clock sync pulses, the access input of the RAM block 25 to the output of the fourth multiplexer 26, the second information input which is connected to the inlet 35 of the device. Block data input

5 25 RAM is connected to the input 34 of the video data of the device, the output of the RAM block 25 is connected to the information output 37 of the device. The five most significant bits of the information input of the fourth register 27 are connected to the output of the eighth counter 18, the clock input of the fourth register 27 to the inversion input 35 of the device. The output of the fourth register 27 is connected to the output 38 of the device address, output 36

5 prohibiting readout of the device - with the release of the second trigger 23.

The device works as follows.

A discrete television signal is fed to the input 34 of the video data of the device. The video signal is synchronized with the help of clock, line and frame clock pulses, arriving at the inputs 31, 32, and 33 of the device, respectively, 5 but. The image is entered into the VM by block, the maximum size of the information block is 32 x 32 elements, the coordinates of the location of the information block in the image frame, its dimensions and scale are set by computer. The procedure for transferring an image block consists of the operation of writing a block of image 32 x 32 elements into the main memory block 25 and the operation of transferring the image block elementwise to the output 37 of the device. The device operates in three main modes.

1. The recording mode in the block 25 of the RAM of the block of information of size 32 x 32 elements with coordinates X and Y in the frame, placed in registers 4 and 5, and the scale recorded in register 3. The value of the coordinate. X corresponds to the number of elements skipped in a line before writing a block of elements. The value of the Y coordinate corresponds to the number of missing lines in the frame before recording a block of elements. The scale value corresponds to the number of missing elements of the image between the elements of the image block during its recording. The video data is recorded in the RAM block 25 in each frame under the control of clock pulses from the camera, if the device is not switched to other modes.

2. A mode for outputting information in a computer to the information output 37 of the device elementwise, and the address of the image element inside the information block is set at the input of the address 30 of the device.

3. The information output mode for information output 37 is element-wise, and the address of the read element, except for the first one, is automatically generated in a spiral scan and can be output to the address output 38 of the device upon a command from a computer.

When the device operates in the first mode, the coordinate values and scale of the information block are set using commands that, from the input 28, the device commands enter the input of the first decoder 1. When the scale record command is activated, the first output of the decoder 1 is activated, and the scale value from the device 30 input is written to register 3, from where it enters information inputs of counters 9 and 19, the counting inputs of which receive clocks from input 31 of the device and lower-case pulses from input 32 of the device, respectively. As a result, at the outputs of counters 9 and 19, an overflow signal occurs, in which information from register 3 is overwritten, the pulses at the output of counter 9 are separated in time by the number of clock pulses corresponding to the scale value, and the pulses at the output of counter 19 are separated by time

line pulses, - corresponding to the coarse scale.

The command to write the block coordinate by X activates the second output of the decoder.

1, wherein the coordinate value of the block in X from the address input 30 of the device is written to the register 4, from where it arrives at the information input of the counter 10,

With the arrival of the line pulse, this information is recorded in the counter 10, the counting input of which receives the pulses from the multiplexer 13, which transmits clock pulses to its output if no trigger 14 is set, or pulses from the output

5 counters, if trigger 14 is set. The trigger 14 is set to 1 by the overflow signal of the counter 10, which is a sign of setting the X coordinate, and is reset to O by the sixth digit of the counter.

0 10. Thus, the trigger 14 is set for 32 pulses arriving at the counting input of the counter 10, and the values of the five first bits of the counter 10 are fed to the lower five bits of the first

5 information input multiplexer 15.

At the command to write the block coordinate in Y, the third output of the decoder 1 is activated, and the coordinate value

0 of the Y block from the input 30 of the device is recorded in the register 5. From where it arrives at the information input of the counter 20, With the arrival of a personnel pulse, this information is written into the counter 20, at the counting input of which the pulses come from the multiplexer 22, which transmits to its output lower pulses, if trigger 23 is not set, or pulses from the output of counter 19, if trigger 23 is set to 1. Trigger

0 23 is set to G by the overflow signal of counter 20, which is a sign of setting the Y coordinate, and reset to 0 by the sixth bit of counter 20. Thus, the trigger 23 is set to 32f

5 pulses arriving at the counting input of the counter 20, and the values of the five first bits of the counter 20 are sent to the upper five bits of the first information input of the multiplexer 15, which

In this mode, it is turned on so that its output receives information from the first information input. Therefore, the address inputs of the RAM block 25 receive a ten-bit address code defining 1024 image block elements (32 x 32), which are written to the RAM memory block 25 by a selection signal received through multiplexer 26 from AND 24, and this signal is formed by setting the coordinates X and Y

(i.e., when set to 1 flip-flops 14 and 23) and the arrival of a clock pulse at the input 31 of the device. No signals are received to the input of the mode of the RAM block 25, therefore the block 25 is in the recording mode. The trigger output signal Tc also arrives at the read inhibit output 36 of the device, which makes it possible to analyze the operation mode of the device and not transfer it to the second or third modes during the recording of information in the operational memory 25.

When the device is operating in the second mode, a ten-bit address of the read element is sent to the device memory 30, a readout address is sent to the device 30, a read information element is sent to the device input 28, and the fourth output of the decoder 1 is activated. The signal from this output goes to the first control input of the multiplexer 15 and through the OR 21 element to the control input of the multiplexer 26 and to the mode input of the main memory 25, which allows give the address of the image element from the device address input 30 through the second information input of the third multiplexer 15 to the address input of the RAM block 25, transmit the address signal from the device access input 35 via the fourth multiplexer 26 to the address input of the RAM block 25, and transfer the block 25 of the RAM in read mode information, which in this mode enters the information output 37 of the device.

The operation of the device in the third mode is explained using the timing diagram shown in FIG. 2

The entry of the starting point address is made using a pulse at the sixth output of the decoder 1 when a corresponding command is sent to it. In this case, the input 30 of the device is supplied with a ten-bit address, the lower five bits of which are the X coordinate, and the upper five bits are the Y coordinate of the starting point. When a pulse appears at the sixth output of the decoder 1, the counters 17 and 18 are preset, and the coordinate 17 records the coordinate X, and the counter 18 records the coordinate Y of the starting point. In addition, using the same signal, triggers 11 and 12 are reset, the constant 1 is recorded from the device input 29 into counter 6, and then into counter 7 due to the fact that this signal passes through delay element 2, the delay time in which required for

the appearance of the output of the counter 6 when it is preset reliable information.

To put the device into a spiral sweep mode.

28, a command is issued that activates the fifth output of the decoder 1. The signal from this output goes to the second control input of the multiplexer 15 and through the OR element 21 to the control input

0 multiplexer 26 and the input mode of the block 25 RAM. This allows transmitting the address of the image element from the outputs of the counters 17 and 18 via the third information input of the multiplexer 15

5 to the address input of the RAM block 25, to transmit a call signal from the device access input 35 through the fourth multiplexer 26 to the call input of the RAM memory block 25, and also to translate

0 block 25 operative memory in read mode information, which in this mode enters the output 37 of the device.

The first access signal, which arrived at the input 35 of the device, allows to count

5, the image element whose address is recorded in the counters 17 and 18 reduces the value of counter 7 by one, and also, at the input to the address of the decoder 16, with its falling edge modifies the address.

0 Since the inverse outputs of the flip-flops 11 and 12 have signals T, the first output of the decoder is activated and the contents of counter 17 are incremented. Since the value of counter 7 is only one, a signal appears at its output, which rewrites through element 8 in counter 7, the value from the output of counter b, which leads to the disappearance of the signal at the output of counter 7 and

0 setting the trigger 11 to 1, and the signal from its direct output increases the value of counter 6 by one. The second reference signal received at input 35 of the device allows the next element of the image to be read and continues to form a helical scan.

Decreasing by one the value of counter 7, it again causes the appearance of a signal at its output, which overwrites

0 counter 7 number 2 from counter 6. At the same time, the signal from the output of counter 7 disappears. As a result, trigger 11, which is in counting mode, is reset to O, and the positive front at its inverse output

5 cocks trigger 12, also in counting mode. In accordance with the states of the flip-flops 11 and 12, the second inversion signal causes the appearance of a pulse at the third output of the decoder, which increments the counter 18. The third inversion signal does not cause the appearance of the signal at the output of the counter 7, therefore the state of the triggers 11 and 12 is not changes, but the address of the image element is modified, since the second output of the decoder 16 is activated and the counter 17 is decremented. Similar1 action also causes the fourth circulation pulse, but it also causes the appearance of the counter output signal a 7, rewriting the number 2 from counter 6 into it, setting trigger 11 in G, and incrementing the content of counter 6 per unit. The fifth and sixth circulation pulses cause signals to appear on the fourth output of the decoder 16 and de-allocate counter 18. After the arrival of the sixth inversion pulse, the triggers 11 and 12 appear in the initial state, so the seventh, eighth and ninth inversion pulses activate the first output of the decoder 16, etc.

The table shows the device implements the sequence of modification of addresses X and Y, recorded in the counters 17 and 18 in the first twenty steps of the spiral scan.

Circulation pulses also arrive at the clock input of the fourth register 27, which makes it possible to record the current address of the spiral scan from counters 17 and 18. This address can be given to the address output 38 of the device when a command is issued to the device 28 that activates the seventh output of the decoder 1.

The proposed device, in contrast to the known, where the input of an image block 32 x 32 is element by element and requires the formation and delivery of the address of each element to the device, allows to expand the range of application of the device due to the possibility of entering an image into the computer from the image block in an automatically generated helical scan with the task of the initial point of deployment of the spiral from the computer. as well as the possibility of entering into the computer the current address of the spiral scan. This method of reading can be used in solving many applied tasks of processing visual information, in particular when searching for objects in an image, when determining the sizes and coordinates of objects in an image, when filtering images with different apertures, etc.

Claims (1)

Invention Formula A device for entering information containing the first decoder, the first, second and third registers, the first, second, third and fourth counters, the first and second triggers, the first, second, third and fourth multiplexers, the first element And, the memory unit, the first the third outputs of the first decoder are connected to the clock inputs of the first to third registers, respectively, the outputs of the first register are connected to the installation inputs of the first and third counters, the outputs of the second register are connected to the installation inputs of the second counter, the outputs the third register with the installation inputs of the fourth counter, the counting input of which is connected to the output of the second multiplexer, the first information input of which is connected to the output of the third counter, the first information input of the first multiplexer is connected to the output of the first counter, the fourth input of which is the second information input of the first multiplexer and the first the input of the first element AND is the input of the clock sync pulses of the device, the counting input of the third counter, the second information input of the second multiplexer and the load input of the second counter is the input of the device's lower sync pulses, the output of the third counter is connected to the load input of the third counter, the output of the first counter is connected to the load input of the first counter, the information outputs of the groups of the second and fourth counters are connected to the information inputs of the first group of the third multiplexer, the information output The second counter is connected to the reset input of the first trigger, the setup input of which is connected to the overflow output of the second counter, and the output to the control the first multiplexer and the second input of the first element AND, the information output and the overflow output of the fourth counter are connected to the reset input and the installation input of the second trigger, respectively, the output of the second trigger is connected to the control input of the second multiplexer and the third input of the first And element whose output is connected to the first the information input of the fourth multiplexer, the output of the first multiplexer is connected to the counting input of the second counter, the load input of the fourth counter is the input frame new sync pulses of the device, the address inputs of the RAM block are connected to the outputs of the third multiplexer, the first control input of which is connected to the fourth output of the first decoder, the inputs of which are the control inputs of the device, the second information input of the fourth multiplexer is the device access input, the output of the fourth the multiplexer is connected to the control input of a random access memory block, the information inputs of which are the information inputs of the device, the outputs of the block memory memory — information outputs of the device, information inputs of the second group of the third multiplexer — address inputs of the device, characterized in that, in order to increase speed and expand the application area of the device by providing input of image elements by automatically generated spiral scan and the current address of this scan, The fourth register, the fifth, sixth, seventh and eighth counters, the second decoder, the third and fourth triggers, the second element I, the element for The holders and the OR element, the sixth output of the first decoder is connected to the boot inputs of the fifth, seventh and eighth counters, the reset inputs of the third and fourth triggers, and through the delay element nto the first input of the second element AND, the output of which is connected to the load input of the sixth counter The seventh output of the first decoder is connected to the clock input of the fourth register, the outputs of which are address outputs of the device, the output of the fifth counter is connected to the setup input of the sixth counter, the output of which is connected to the clock input Odom third flip-flop and a second input of the second AND gate, a direct output of the third flip-flop is coupled to a fifth input summiruschim counter installation whose inputs are the inputs of the mounting device, a fourth inverse output the trigger is connected to the information input of the fourth trigger and the second information input of the second decoder; the inverse output of the third trigger is connected to the information input of the third trigger; counters, respectively, the second and fourth outputs of the second decoder are connected to the subtractive inputs of the seventh and eighth counters, respectively, outputs which are connected to the information inputs of the third group of the third multiplexer and information inputs of the fourth register, the installation inputs of the seventh and eighth counters and information inputs of the first, second and third registers are combined with the information inputs of the second group of the third multiplexer, the summing input of the sixth counter, the control inputs of the second decoder and the fourth register is combined with the second information input of the fourth multiplexer; the fifth output of the first decoder is connected to the second the control input of the third multiplexer and the first input of the OR element, the output of which is connected to the read-write input of the RAM block and the control input of the fourth multiplexer, the second input of the OR element, is connected to the fourth input of the first decoder, the output of the second trigger is the output of the device read inhibit .