RU2281549C1 - Device for finding information - Google Patents

Abstract

FIELD: computer engineering, possible use as device for structural-statistical analysis of information arrays.

SUBSTANCE: device contains generator of signals of current estimate, discriminator of zones of estimate values, distributor of impulses, counter of temporal intervals, commutator, first and second generators of search variable, first and second adding counters, first and second memory blocks, division block, classification device, register of search strategy, signals generator, timer of current day, block for generation of cutting threshold, structural analyzer and third memory block.

EFFECT: possible recognition of target determined combinations, representing n-digit binary numbers.

2 cl, 2 dwg

Description

The invention relates to the field of computer technology and can be used as a device for structural and statistical analysis of information arrays.

A device for information retrieval is described in the USSR author's certificate No. 1711185, IPC ⁴ G 06 F 15/40, claimed 05.04.89. The indicated invention describes an information search device comprising upper and lower bound registers, an adder-subtracter, a search strategy register, subtracting and adding up counters, comparison circuits, a memory block, a key register, an output register, AND and OR element groups, a trigger, a pulse distributor , launch input, upper and lower border address inputs, input of search strategy change criterion code, key input, address output, output of a sign of lack of information.

Also known is a information retrieval device described in the copyright certificate of the Russian Federation No. 2116670, IPC ⁶ G 06 F 17/30, filed on 04/07/97. The specified invention describes an information search device comprising a pulse distributor, first and second variable search formers summing counters and memory blocks, a search strategy register, a current rating signal generator, a discriminator of evaluation value zones, a time interval counter, a switch, a division unit, a classifier, threshold signal changing unit, current day timer, indication unit and reset signal generator, information input, inputs "Zone 1" and "Zone 2", inputs "N _max ", "Threshold" and "Start" and output a Dresa.

However, analogues have disadvantages in the low speed of searching for combinations of the beginning of messages and in the relatively low information content of traffic indicators characterizing the structure of information arrays.

The nearest information retrieval device (prototype) to the proposed one is described in the copyright certificate of the Russian Federation No. 2149446, IPC ⁷ G 06 F 17/30, declared on 12.05.99. The specified invention describes an information retrieval device comprising a current estimator, a discriminator of evaluation value zones, a pulse distributor, a time interval counter, a switch, first and second search variable generators, first and second totalizing counters, first and second memory blocks, a division unit, classifier, search strategy register, reset signal generator, indication unit, threshold signal change unit, current day timer, truncation threshold formation unit.

The information inputs of the signal generator of the current assessment and the discriminator of the zones of the evaluation values are combined and are the information input of the device. The inputs "Change in the state of the situation" and "No change in the state of the situation" of the display unit are connected to the inputs of the reset signal generator and the outputs of the classifier of the same name. The inputs "Value of the upper threshold of classification" and "Value of the lower threshold of classification" of the classifier are connected to the outputs of the search strategy register of the same name. The inputs "Upper value of the search threshold" and "Lower value of the search threshold" of the search strategy register are connected to the outputs of the threshold signal change unit of the same name and to the inputs of the truncation threshold formation unit. The input "Number of the current time interval" of the truncation threshold formation unit is connected to the input of the search strategy register and the output of the time interval counter. The “Reset” input of the truncation threshold formation block is connected to the output of the reset signal shaper of the same name, to the inputs of the first and second memory blocks, and to the input of the time interval counter. The clock input of the counter of time intervals is connected to the synchronization inputs of the signal generator of the current rating and the discriminator of the zones of the evaluation values and the first synchronizing output of the pulse distributor. The “Time” input of the pulse distributor is connected to the same inputs of the current conditioner signal generator, the discriminator of the evaluation value zones, the threshold signal change unit and the current day timer output. The outputs "Change in the state of the situation" and "No change in the state of the situation" of the discriminator of the evaluation value zones are connected to the inputs of the same name on the switch. The control and synchronization inputs of the switch are connected respectively to the output of the current conditioner signal conditioner and the second output of the pulse distributor. The fourth and third outputs of the pulse distributor are connected respectively to the synchronization input of the classifier and to the synchronization inputs of the first and second memory blocks. The outputs "Change in the state of the situation" and "No change in the state of the situation" of the switch are connected to the information inputs of the first and second formers of the search variable, respectively. The input "Maximum number of time interval" of the first shaper of the search variable is connected to the same inputs of the second shaper of the search variable, the search strategy register and the output of the truncation threshold formation block. The inputs of the number of intervals of partitioning values of changing the state of the “Zone” environment of the first and second formers of the search variable are respectively the inputs of the number of intervals of partitioning of values of the changing state of the environment “Zone 1” and the number of intervals of partitioning of values of the absence of changing the state of the environment “Zone 2” of the device. The output of the first driver of the search variable is connected to the information input of the first totalizing counter. The output of the first totalizing counter is connected to the second information input of the division unit. The first information input of the division block is connected to the output of the second totalizing counter and the information input of the second memory block. The output of the division block is connected to the information input of the classifier. The output of the first memory block is connected to the information input of the first totalizing counter. The first and second information inputs of the second totalizing counter are connected to the outputs of the second driver of the search variable and the second memory block, respectively. The “Start” and “Threshold” inputs of the threshold signal change block are connected to the corresponding inputs of the truncation threshold formation block and are respectively the “Start” and “Threshold” inputs of the device. The inputs "Maximum number of time interval", "Numerical value of one" and "Sample size of the analysis interval" of the truncation threshold formation unit are the device inputs of the same name.

The described device has a higher speed of searching for combinations of the beginning of messages compared to the above, due to the use of a combination of new blocks and adjusting the value of the maximum number of the time interval throughout the analysis interval is adequate to the input information stream.

However, the prototype device has the disadvantage of relatively low information content of traffic indicators characterizing the structure of the information array, because it estimates only the intensity of the input traffic by the combinations of the beginning of the message.

The aim of the invention is to provide a device that allows the recognition of the desired deterministic combinations, which are n-bit binary numbers.

This goal is achieved by the fact that in the known information retrieval device, including a current estimator, a discriminator of evaluation value zones, a pulse distributor, a time interval counter, a switch, the first and second search variable generators, the first and second totalizing counters, the first and second memory blocks , division block, classifier, search strategy register, reset shaper, indication block, threshold signal change block, current day timer, threshold formation block truncated The information input of the current estimator of the signal generator is connected to the information input of the discriminator of the evaluation value zones, the inputs “Change of the situation state” and “No change of the state of the situation” of the display unit are connected to the inputs of the reset signal generator and the outputs of the classifier of the same name, the inputs “Value of the upper classification threshold” and "The value of the lower classification threshold" which is connected to the outputs of the search strategy register of the same name, the inputs "Upper value of the search threshold" and "Lower value of p search hog "which is connected to the outputs of the threshold signal changing unit of the same name and to the inputs of the truncation threshold formation unit, whose current time interval number input is connected to the search strategy register register of the same name and the output of the time interval counter, and the" Reset "input of the truncation threshold formation unit connected to the output of the reset signal driver of the same name, to the inputs of the first and second memory blocks and to the input of the counter of time intervals, the clock input of which is connected to the synchronization inputs of the forms signal estimator of the current evaluation and discriminator of the zones of the evaluation values and the first synchronizing output of the pulse distributor, the input of which is connected to the same inputs of the signal generator of the current evaluation, discriminator of the zones of the evaluation values, the block for changing threshold signals and the output of the current day timer, outputs "Changing the situation "and" No change in the state of the environment "of the discriminator of the evaluation value zones are connected to the inputs of the switch of the same name, whose control and synchronization inputs are connected respectively to the output of the current estimator of signals and the second output of the pulse distributor, the fourth and third outputs of which are connected respectively to the synchronization input of the classifier and to the synchronization inputs of the first and second memory blocks, the outputs "Change of the state of the situation" and "No change of the state of the situation" of the switch are connected to the information inputs of the first and second formers of the search variable, respectively, the input "Maximum number of time interval" of the first form The search variable creator is connected to the same inputs of the second search variable shaper, the search strategy register and the output of the truncation threshold formation unit, the inputs of the number of intervals for partitioning the values of the situation state changes “Zone” of the first and second shapers of the search variable are the inputs of the number of intervals of the partitioning of values for the situation state change “ Zone 1 "and the number of intervals of dividing the values of the absence of a change in the state of the situation" Zone 2 "of the device, the output of the first of the first variable search driver is connected to the information input of the first totalizing counter, the output of which is connected to the second information input of the division unit, the first information input of which is connected to the output of the second totalizing counter and the information input of the second memory unit, and the output of the division unit is connected to the information input of the classifier, output the first memory block is connected to the information input of the first totalizing counter, the first and second information inputs of the second totalizing counter connected to the outputs of the second driver of the search variable and the second memory block, respectively, the inputs “Start” and “Threshold” of the threshold change block are connected to the corresponding inputs of the trimming threshold generation unit and are respectively the inputs “Start” and “Threshold” of the device, and the inputs “Maximum time interval number ”,“ Numerical value of unit ”and“ Sample size of the analysis interval ”of the truncation threshold formation unit are the device inputs of the same name, a structural analyzer, assigned to the trigger signal generation operation of the device in the presence of a play start messages in the input information stream and recognizing desired deterministic combinations, and the third memory unit.

The information output of the structural analyzer is connected to the information input of the current conditioner signal conditioner. The input “Search feature” of the display unit is connected to the same output of the structural analyzer. The outputs “Address” and “Clock pulses” of the structural analyzer are connected to the same inputs of the third memory unit. The output “Data” of the third memory unit is connected to the same input of the structural analyzer. Information and synchronization the input of the structural analyzer is respectively the information and synchronizing inputs of the device.

The structural analyzer consists of an input register, a decoder, first and second parallel registers, a comparator, a hash function calculator, an RS trigger, a pulse generator, a key. The information and synchronizing input of the input register are respectively the information and synchronizing inputs of the structural analyzer. The output of the input register is connected to the information inputs of the decoder, the first parallel register and the hash function calculator. The output of the hash function calculator is the "Address" output of the structural analyzer. The output of the first parallel register is connected to the information input of the second parallel register and the first input of the comparator. The output of the comparator is connected to the input "Setting 0" RS-trigger and the control input of the second parallel register. The output of the second parallel register is the output of the "Search feature" of the structural analyzer. The decoder output is connected to the control input of the first parallel register, which triggers the input of the hash function calculator, to the “Setting 1” input of the RS trigger and is the information output of the structural analyzer. The second input of the comparator is the "Data" input of the structural analyzer. The direct output of the RS-trigger is connected to the control input of the key. The key information input is connected to a pulse generator. The key output is connected to the control input of the comparator and is the output "Clock pulses" of the structural analyzer.

Thanks to a new set of essential features, due to the introduction of a structural analyzer and an additional memory block, in which hashing and recognition of the sought-after deterministic combinations is performed, the informational indices of traffic characterizing the structure of information arrays are increased.

The analysis of the prior art made it possible to establish that there are no analogues characterizing the totality of features identical to all the features of the claimed technical solution, which indicates the compliance of the claimed device with the patentability condition of "novelty". Search results for known solutions in this and related fields of technology in order to identify features that match the distinctive features of the claimed object from the prototype showed that they do not follow explicitly from the prior art. The prior art also did not reveal the popularity of the impact provided by the essential features of the claimed invention, the transformations on the achievement of the specified technical result. Therefore, the claimed invention meets the condition of patentability "inventive step".

The claimed device is illustrated by drawings:

- figure 1 is a General diagram of an information retrieval device;

- figure 2 is a structural analyzer.

The information search device shown in Fig. 1 contains a signal conditioner of the current rating 1, a discriminator of the zones of the values of the rating 2, a pulse distributor 3, a counter of time intervals 4, a switch 5, the first 6 and second 7 summers, the first 8 and second 9 summing counters, the first 10 and second 11 memory blocks, division block 12, classifier 13, search strategy register 14, reset signal generator 15, indication block 16, threshold signal change block 17, current day timer 18, truncation threshold formation block 19, art ukturny analyzer 20 and the third memory unit 21.

The information input of the current evaluation signal generator 1 is connected to the information input of the discriminator of the evaluation value zones 2. The inputs “Change in the state of the situation” - “P” and “No change in the state of the situation” - “O” of the display unit 16 are connected to the inputs of the same name as the reset signal generator 15 and the outputs of the classifier 13. The inputs "Value of the upper classification threshold" - "P _CL " and "Value of the lower classification threshold" - "P _CL " of the classification thresholds of the classifier 13 are connected to the outputs of the search strategy register of the same name 14. The inputs "Upper value of the search threshold" - "P _in " and "Lower value of the search threshold" - "P _n " of the search thresholds of the search strategy register 14 are connected to the outputs of the threshold signal changing unit 17 and to the inputs of the truncation threshold forming unit 19. Input The "number of the current time interval" is "N _tech " of the truncation threshold formation unit 19 is connected to the same input of the search strategy register 14 and the output of the time interval counter 4. The "Reset" block of the truncation threshold formation unit 19 is connected to the same output of the sig the reset 15, to the inputs of the first 10 and second 11 memory blocks and to the input of the counter of time intervals 4. The clock input of the counter of time intervals 4 is connected to the synchronization inputs of the signal generator of the current rating 1 and the zone discriminator of the rating values 2 and the first synchronizing output of the pulse distributor 3. The “Time” input of the pulse distributor 3 is connected to the inputs of the signal shaper of the current rating 1, the discriminator of the zones of the rating values 2, the block for changing the threshold signals 17 and the timer output of the current day 18. V moves “Change of the state of the situation” - “Per” and “No change of the state of the situation” - “From” the discriminator of the zones of values of rating 2 are connected to the inputs of the same name on the switch 5. The control and synchronization inputs of switch 5 are connected respectively to the output of the signal conditioner of the current rating 1 and second the output of the pulse distributor 3. The fourth and third outputs of the pulse distributor 3 are connected respectively to the synchronization input of the classifier 13 and to the synchronization inputs of the first 10 and second 11 memory blocks. The outputs "Change in the state of the situation" - "Per" and "No change in the state of the situation" - "From" of the switch 5 are connected to the information inputs of the first 6 and second 7 shapers of the search variable, respectively. The input "Maximum number of time interval" - "N _max " of the first shaper of the search variable 6 is connected to the same inputs of the second shaper of the search variable 7, the register of the search strategy 14 and the output of the truncation threshold forming unit 19. The inputs of the number of intervals of partitioning the values of the change in the state of the situation "Zone 1 "and the number of intervals of dividing the values of the absence of a change in the state of the environment" Zone 2 "of the device are the inputs of the number of intervals of dividing the values of the change of the state of the environment" Zone "respectively GOVERNMENTAL first 6 and second 7 formers search variable. The output of the first driver of the search variable 6 is connected to the information input of the first totalizing counter 8. The output of the first totalizing counter 8 is connected to the second information input of the division unit 12. The first information input of the division unit 12 is connected to the output of the second totalizing counter 9 and the information input of the second memory unit 11. The output of the division block 12 is connected to the information input of the classifier 13. The output of the first memory block 10 is connected to the information input of the first totalizing counter 8. The first and second and the formation inputs of the second totalizing counter 9 are connected to the outputs of the second driver of the search variable 7 and the second memory block 11 respectively. The “Start” and “Threshold” inputs of the threshold signal changing block 17 are connected to the corresponding inputs of the truncation threshold formation block 19 and are respectively the “Start” inputs and the "Threshold" of the device. The inputs "Maximum number of time interval" - "N _max ", "Numerical value of the unit" - "1" and "Sampling volume of the analysis interval" - "V _select " of the truncation threshold generation unit 19 are the device inputs.

The information output of the structural analyzer 20 is connected to the information input of the current conditioner signal shaper 1. The input “Search feature” of the display unit 16 is connected to the same output of the structural analyzer 20. The outputs “Address” and “Clock pulses” of the structural analyzer 20 are connected to the same inputs of the third memory block 21. The "Data" output of the third memory block 21 is connected to the input of the structural analyzer of the same name 20. The information and synchronization input of the structural analyzer 20 are respectively inform control and synchronizing inputs of the device.

The structural analyzer 20 is designed to generate a start signal for the entire device, hashing and recognition of the desired deterministic combinations and can be implemented in various ways, in particular, as shown in Fig.2. The recognition object is the sought-for deterministic combinations in the information array. Each deterministic combination representing an n-bit binary number is divided by a predetermined n-bit binary number with the remainder being the value of the hash function. By the found value of the hash function, which is the address, in the memory block 21, pre-programmed desired deterministic combinations are found and compared with the received deterministic combination for a match. If one of the deterministic combinations stored in the memory unit 21 coincides with the received one, the signal “Search feature” is issued, which represents the desired deterministic combination displayed in the display unit 16.

The structure analyzer 20 consists of input register 20.1, decoder 20.2, first 20.3 and second 20.5 parallel registers, comparator 20.4, hash function calculator 20.6, RS trigger 20.7, pulse generator 20.8, key 20.9. The information and synchronization input of the input register 20.1 are respectively the information and synchronizing inputs of the structural analyzer 20. The output of the input register 20.1 is connected to the information inputs of the decoder 20.2, the first parallel register 20.3, and the hash function calculator 20.6. The output of the hash function calculator 20.6 is the “Address” output of the structural analyzer 20. The output of the first parallel register 20.3 is connected to the information input of the second parallel register 20.5 and the first input of the comparator 20.4. The output of the comparator 20.4 is connected to the input "Setting 0" RS-flip-flop 20.7 and the control input of the second parallel register 20.5. The output of the second parallel register 20.5 is the output of the “Desired feature” of the structural analyzer 20. The output of the decoder 20.2 is connected to the control input of the first parallel register 20.3, which triggers the input of the hash function calculator 20.6, to the input “Setting 1” of the RS flip-flop 20.7 and is the information output of the structural analyzer 20. The second input of the comparator 20.4 is the "Data" input of the structural analyzer 20. The direct output of the RS-flip-flop 20.7 is connected to the control input of the key 20.9. The second input of the key 20.9 is connected to the pulse generator 20.8. The output of the key 20.9 is connected to the control input of the comparator 20.4 and is the output "Clock pulses" of the structural analyzer 20.

The purpose of the blocks and elements of the claimed device is as follows. The signal conditioner of the current assessment 1 is designed to generate, at the end of the current analysis interval, a binary signal characterizing the state of the situation and assuming the value "P" or "O". The signal driver circuit of the current rating 1 is known and described in FIG. 2 of the RF patent No. 2116670.

The discriminator of the zones of evaluation values 2 is designed to generate a signal about the zone number of the state in which the input information stream of the corresponding intensity is located. The scheme of the discriminator of the zones of the values of the rating 2 is known and described in figure 3 of the patent of the Russian Federation No. 2116670.

The pulse distributor 3 is designed to synchronize the operation of the entire device by forming four pulse sequences shifted relative to each other by a certain value Δt. The pulse distributor circuit 3 is known and described in FIG. 4 of the patent of the Russian Federation No. 2116670.

The counter of time intervals 4 is intended for counting the number of observed time intervals and issuing a combination of the number of the time interval "N _tech ". The counter of time intervals 4 is a summing counter, the scheme of which is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M .: Energy, 1978. - 248 p.] On p. 120, Fig. 3.13.

Switch 5 is intended for switching the signal about the zone number to the input of the corresponding driver of the search variable by the control signal received from the signal driver of the current rating 1 and receiving the values "P" and "O". The circuit of the switch 5 is known and described in figure 5 of the patent of the Russian Federation No. 2116670.

Search variable shapers 6 and 7 are intended for constructing increments of posterior integral probability distribution functions of the normal F _О (N) (search variable shaper 6) and rejected F _П (N) (search variable shaper 7) traffic states on the Nth observation interval. The schemes of the formers of the search variable 6 and 7 are identical. The circuit of the shaper of the variable search 6 is known and described in Fig.6 of the patent of the Russian Federation No. 2116670.

Summing counters 8, 9 are designed to add the values of the increments F _О (N) and F _П (N) with the corresponding values of the empirical integral distribution function calculated for N-1 time interval F _О (N-1) and F _П (N-1) . Summing counters 8, 9 are arithmetic adders, the schemes of which are known and described in [Fundamentals of pulse and digital technology. Textbook for high schools. - M.: Soviet Radio, 1975. - 440 p.] On page 377, Fig. 14.17.

The memory blocks 10, 11 are designed to store increments F _O (N) and F _P (N) for one analysis interval. The memory blocks 10, 11 are parallel action registers, the schemes of which are known and described in [Shlyapobersky V.I. Fundamentals of discrete messaging technology. - M.: Communication, 1973. - 480 p.] On p. 106, Fig. 1.

The division unit 12 is designed to divide the increment F _P (N) by the increment F _O (N) and provide a likelihood ratio. The division block 12 is a device for dividing two n-bit binary numbers without restoring the remainder, the scheme of which is known and described in [Bocharov KP, Nemshilov NN, Petrov EI, Sulin LI Computing complexes of automated control systems. - L .: YOU, 1984. - 368 p.] On p. 88-90, fig. 3.24.

Classifier 13 is designed to generate signals "P" or "O" based on a comparison of the input information with threshold values. The scheme of the classifier 13 is known and described in Fig.7 of the patent of the Russian Federation No. 2116670.

The search strategy register 14 is designed to generate interval or point values of classification thresholds depending on whether the number of the search interval is limiting or not. The scheme of the register of the search strategy 14 is known and described in Fig.8 of the patent of the Russian Federation No. 2116670.

The driver of the reset signal 15 is designed to combine the signals "P" and "O", their amplification and coordination with subsequent blocks. The reset signal generator 15 can be made in the form of a two-input OR circuit, which is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M.: Energy, 1978. - 248 p.] On p. 48-49, Fig. 2.7.

The display unit 16 is designed to display information about the presence of the desired deterministic combinations and changes in the intensity of the input information stream. The display unit 16 is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M.: Energia, 1978. - 248 p.] On pages 194-196, Fig. 5.20 and 5.21.

The block for changing threshold signals 17 is designed to change the values of threshold signals depending on the time of day. The circuit block changes the threshold signals 17 is known and described in Fig.9 of the patent of the Russian Federation No. 2116670.

The current day timer 18 is designed to set the time of day of the entire device. The timer scheme of the current day 18 is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M.: Energia, 1978. - 248 p.] On pp .98-199, Fig. 5.23.

The truncation threshold formation block 19 is intended to adjust the value of the maximum number of the time interval - "N _max " adequately to the input information stream over the entire analysis interval. The block diagram 19 is known and described in figure 2 of the patent of the Russian Federation No. 2149446.

The structural analyzer 20 is designed to generate a start signal for the entire device, hashing and recognition of the desired deterministic combinations and can be implemented in various ways, in particular, as shown in Fig.2.

The input register 20.1 is designed to convert the deterministic combination arriving at the input from a serial code to a parallel one. The input register scheme 20.1 is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M .: Energy, 1978. - 248 p.] On p. 182-184.

The decoder 20.2 is designed to highlight the combination of the beginning of the message at the output of the input register 20.1 and start the operation of the entire device. The decoder circuit 20.2 is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M.: Energy, 1978. - 248 p.] On p. 152-153, Fig. 3.43.

Parallel registers 20.3, 20.5 are designed to store a deterministic combination for one analysis interval. Schemes of parallel registers 20.3, 20.5 are known and described in [Shlyapobersky V.I. Fundamentals of discrete messaging technology. - M.: Communication, 1973. - 480 p.] On p. 106, Fig. 3.1.

The comparator 20.4 is designed to compare two n-bit numbers and output the signal "1" at the output (A = B). The comparator circuit 20.4 is known and described in [Lebedev ON, Sidorov A.M. Pulse and digital devices. Digital nodes and their design on microcircuits. - L .: YOU, 1980. - 128 p.] On p. 52-54, fig. 2.35, table 2.11.

The hash function calculator 20.6 is designed to divide the deterministic combination arriving at the input of the device, which is an n-bit binary number, by a predetermined n-bit binary number with the remainder and provide the address of the deterministic combination in the memory block 21. The hash function calculator 20.6 is a device for dividing two n-bit binary numbers by the remainder recovery method, the scheme of which is known and described in [Khvoshch S.T., Varlinsky N.N., Popov E.A. Microprocessors and microcomputers in automatic control systems. Directory. - L .: Engineering, 1987. - 640 p.] On p. 573-575, table 18.6.

The RS-trigger 20.7 is designed to control the operation of the key 20.9. The circuit of the RS-trigger 20.7 is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M .: Energy, 1978. - 248 p.] On p. 158-159, fig. 4.21 (a).

The pulse generator 20.8 is designed to generate clock pulses. The pulse generator circuit 20.8 is known and described in [Batushev V.A., Veniaminov V.N., Kovalev V.G. and other microcircuits and their application. - M.: Energy, 1978. - 248 p.] On pp. 193-194, Fig. 5.19 (d).

The key 20.9 is designed to pass clock pulses to the third memory block 21 and the comparator 20.4. The key scheme 20.9 is known and described in [Shlyapobersky V.I. Fundamentals of discrete messaging technology. - M.: Communication, 1973. - 480 p.] On p. 43-48, Fig. 2.4.

The third memory unit 21 is designed to store pre-programmed desired deterministic combinations. The third memory unit 21 is an electrically programmable read-only memory device, the circuit of which is known and described in [Hvoshch S.T., Varlinsky N.N., Popov E.A. Microprocessors and microcomputers in automatic control systems. Directory. - L.: Mechanical Engineering, 1987. - 640 p.] On p. 464-474.

The information retrieval device operates as follows.

The input information stream synchronized with clock pulses is fed to the information input of the structural analyzer 20 (Fig. 1).

The structural analyzer 20 (Fig. 2) generates a start signal for the entire device when there is a combination of the beginning of a message in the input information stream, and also searches for predetermined desired deterministic combinations and, if available, gives a signal to the input "Required Feature" of display unit 16.

In the input register 20.1, the deterministic combination under the action of clock pulses is converted from a serial code to a parallel one and is fed to the information inputs of the decoder 20.2, the first parallel register 20.3 and the hash function calculator 20.6.

In the decoder 20.2, when the combination of the beginning of the message appears on strictly defined output bits of the input register 20.1, a start-up signal for the entire device is generated, which is fed to the control input of the first parallel register 20.3, which triggers the input of the hash function calculator 20.6, the input "Setting 1" of the RS trigger 20.7 and to the information inputs of the signal shaper of the current score 1 and the discriminator of the zones of the score values 2. According to this signal, the deterministic combination from the output of the input register 20.1 is written in the first parallel the register 20.3 and the general purpose registers of the hash function calculator 20.6, the logic unit level is set at the output of the RS flip-flop 20.7, and the signal conditioner of the current rating 1 and the discriminator of the zones of rating values 2 analyze the input stream intensity.

In the first parallel register 20.3, the deterministic combination is stored for one analysis interval. From the output of the first parallel register 20.3, the deterministic combination goes to the information input of the second parallel register 20.5 and the first input of the comparator 20.4.

In comparator 20.4, under the action of clock pulses arriving at the control input from key 20.9, the operation compares two deterministic combinations, which are two n-bit binary numbers, the first of which comes from the output of the first parallel register 20.3 to the first input, and the second from the “Data” output of the third memory block 21 to the second input, and if there is a match, a signal is generated that goes to the “Setting 0” input of the RS flip-flop 20.7 and the control input of the second parallel register 20.5. According to this signal, the deterministic combination from the output of the first parallel register 20.3 is recorded in the second parallel register 20.5, and the logic zero level is set at the output of the RS-flip-flop 20.7.

From the output of the second parallel register 20.5, the deterministic combination, according to the control signal from the comparator 20.4, is input to the "Desired sign" of the indication block 16.

The hash function calculator 20.6 divides the determinate combination, which is an n-bit binary number, received at the information input, by a predetermined n-bit binary number by the remainder recovery method, which is the value of the hash function and is also an n-bit binary number, which goes to the input "Address" of the third memory block 21.

The RS trigger 20.7 controls the operation of the key 20.9. The RS-flip-flop 20.7 unlocks the key 20.9 when a signal appears on the input "Installation 1" and locks it when a signal appears on the input "Installation 0".

The pulse generator 20.8 generates pulses that are fed to the information input of the key 20.9.

From the key output 20.9, if there is a logical unit level at the control input from the output of the RS flip-flop 20.7, the clock pulses are fed to the “Clock pulses” input of the third memory unit 21 and the control input of the comparator 20.4.

From the output of the third memory block 21, the pre-programmed desired deterministic combinations located at the address coming from the output of the hash function calculator 20.6 are sequentially read under the action of clock pulses coming from the output of the key 20.9 to the second input of the comparator 20.4.

In the signal conditioner of the current rating 1, at the end of the current analysis interval, a binary signal is generated that characterizes the state of the situation. If the deviation of the number of combinations of the beginning of messages from the average value to the upper or lower side exceeds the threshold, the signal “P” is generated at the output of the signal conditioner of the current rating 1, in other cases, the signal “O” is generated. From the output of the signal conditioner of the current rating 1, the signal "P" or "O" then goes to the control input of the switch 5.

In the discriminator of the zones of the values of the rating 2, a signal is generated about the zone number of that state in which the input information stream of the corresponding intensity is located. This zone number corresponds to a more accurate assessment of the state of the situation compared with the estimate obtained in the signal conditioner of the current rating 1. From the outputs “Change of the state of the situation” - “Per” or “No change in the state of the situation” - “From” the discriminator of the zones of the values of the assessment value 2 signal respectively, "Per" or "Ots" is fed to the input of the same name on the switch 5.

The pulse distributor 3 synchronizes the operation of the entire device by forming four pulse sequences shifted relative to each other by a certain value Δt.

The counter of time intervals 4 calculates the number of observed time intervals and provides a combination of the number of the time interval to the inputs "Current time interval number" - "N _tech " of the search strategy register 14 and the truncation threshold formation block 19.

The switch 5, in accordance with the control signal received from the driver of the current evaluation signal generator 1, connects the signal of the status zone number “Per” or “Ots”, respectively, to the input of the search variable driver 6 or 7, where based on the signal about the zone number K _m ( 1 <j <m), the largest zone number K _m and the maximum number of observations N _max , the increments F _P (N) and F _O (N) of the empirical integral probability distribution functions of the rejected and normal traffic state are constructed on the Nth observation interval:

In the summing counters 8 and 9, the increment values F _P (N) and F _O (N) are tracked with the corresponding values of the empirical integral distribution function calculated for N-1 time interval F _P (Nl) and F _O (N-1), which come from the outputs of memory blocks 10 and 11:

The values of F _P (N) and F _O (N) are fed to the inputs of the division unit 12 and are recorded in the first 10 and second 11 memory blocks. The division unit 12 performs the operation of arithmetic division

and issuing a likelihood relationship to the information input of the classifier 13.

Classifier 13 makes a decision about the state of the situation based on a comparison of the input information with threshold values and generates a signal "P" or "O" to the inputs of the display unit 16 and the shaper of the reset signals 15.

The search strategy register 14 generates interval or point values of the classification thresholds depending on whether the number of the search interval is limiting or not. The signal from one of the outputs "Value of the upper classification threshold" - "P _cl " or "Value of the lower classification threshold" - "P _cl " of the search strategy register 14 is supplied to the corresponding input of the classifier 13.

The reset signal generator 15 generates a “Reset” signal and feeds it to the inputs of the counter 4, the first 10 and second 11 memory blocks and the trimming threshold generation block 19 for resetting them.

The display unit 16 displays information about the presence of the desired deterministic combinations and changes in the intensity of the input information stream when signals arrive, respectively, from the structural analyzer 20 and the classifier 13.

The adaptation of the search thresholds to the time of day is carried out in block 17, at the outputs of which the upper and lower thresholds are formed, depending on the time of day. The current time code is received at its input from the current day timer 18, which sets the time of day of the entire device.

The truncation threshold generation unit 19 generates a new value N _max at the end of the current analysis interval, which is adequate to the characteristics of the input information stream, and provides it to the inputs “Maximum time interval number” - “N _max ” of the search strategy register 14 and search variable shaper 6 or 7.

All blocks, devices, and elements that process the signal, as well as the lines connecting them, must have a bit width corresponding to the bit width of the input operands and the accuracy of their transformations.

An assessment of the increase in the information content of traffic indicators in the proposed device is given in the Appendix.

Thus, the obtained results allow us to conclude that the proposed device increases the information content of traffic indicators characterizing the structure of the information array.

APPENDIX

Assessment of increasing the information content of traffic indicators of the information search device

Assessment of increasing the information content of traffic indicators in the proposed device information retrieval is carried out as follows.

The information content about the presence of intensity changes in the input information stream can be estimated by the information content coefficient equal to the ratio of the number of deterministic combinations with deviated intensity to the total number of deterministic combinations received:

where N is the total number of received deterministic combinations, δ _{i, 1} is the intensity coefficient of the i-th deterministic combination, taking on a value of 1 if there is a deviation in the intensity of receipt of the i-th deterministic combination, and a value of 0 otherwise.

The information content of the presence of the sought-for deterministic combinations in the input information stream can also be estimated by the coefficient of informational content, equal to the ratio of the number of sought-for deterministic combinations to the total number of deterministic combinations received:

where N is the total number of received deterministic combinations, δ _{i, 2} is the similarity coefficient of the i-th deterministic combination, taking the value 1 if the i-th deterministic combination is the desired one, and the value 0 otherwise.

The prototype device allows you to find only the first coefficient of information content, characterizing changes in the intensity of input traffic. The amount of knowledge about the input information flow is determined by the formula:

where x is the total number of traffic indicators.

The proposed device allows you to find two factors of information content. The amount of knowledge about the input information flow is determined by the formula:

where x is the total number of traffic indicators.

The gain of the proposed device by the amount of knowledge about the input information stream is determined by the formula:

1≤R≤2.

Claims (2)

1. An information search device comprising a current estimator, a discriminator of the valuation value zones, a pulse distributor, a time interval counter, a switch, first and second variable search formers, first and second totalizing counters, first and second memory blocks, a division unit, a classifier, search strategy register, reset signal generator, indication unit, threshold signal change unit, current day timer, truncation threshold generation unit, signal driver information input the current assessment is connected to the information input of the discriminator of the assessment value zones, the inputs “Change in the state of the situation” and “No change in the state of the situation” of the display unit are connected to the inputs of the shaper of the reset signal and the outputs of the classifier, inputs “Value of the upper classification threshold” and “Value of the lower classification threshold” "which is connected to the outputs of the search strategy register of the same name, the inputs" Upper value of the search threshold "and" Lower value of the search threshold "of which are connected to the same the outputs of the threshold signal changing unit and to the inputs of the truncation threshold forming unit, the input "Current time interval number" of which is connected to the input of the search strategy register and the output of the time interval counter, and the input "Reset" of the trimming threshold forming unit is connected to the output of the reset signal shaper of the same name , to the inputs of the first and second memory blocks and to the input of the counter of time intervals, the clock input of which is connected to the synchronization inputs of the signal driver of the current estimate and discriminate and the zones of the evaluation values and the first synchronizing output of the pulse distributor, the “Time” input of which is connected to the same inputs of the signal generator of the current evaluation, the discriminator of the evaluation value zones, the block for changing threshold signals and the output of the current day timer, the outputs “Status change” and “No change situation conditions of the discriminator of the evaluation value zones are connected to the inputs of the switch of the same name, the control and synchronization inputs of which are connected respectively to the output of the shaper with ignal current assessment and the second output of the pulse distributor, the fourth and third outputs of which are connected respectively to the synchronization input of the classifier and to the synchronization inputs of the first and second memory blocks, the outputs "Change the state of the situation" and "No change in the state of the environment" of the switch are connected to the information inputs, respectively, of the first and the second shaper of the search variable, the input "Maximum number of time interval" of the first shaper of the variable search is connected to the same input odes of the second shaper of the search variable, the register of the search strategy and the output of the truncation threshold forming unit, the inputs of the number of intervals of partitioning the values of the state of change of the “Zone” of the first and second shapers of the variable search are the inputs of the number of intervals of partitioning of the values of the change of state of the “Zone 1” and the number of intervals dividing the values of the absence of a change in the state of the environment “Zone 2” of the device, the output of the first driver of the search variable is connected to the input input of the first totalizing counter, the output of which is connected to the second information input of the division unit, the first information input of which is connected to the output of the second totalizing counter and the information input of the second memory unit, and the output of the division unit is connected to the information input of the classifier, the output of the first memory unit is connected to the information the input of the first totalizing counter, the first and second information inputs of the second totalizing counter are connected to the outputs of the second user of the search variable and the second memory block, the “Start” and “Threshold” inputs of the threshold signal changing block are connected to the corresponding inputs of the truncation threshold formation block and are respectively the “Start” and “Threshold” inputs of the device, and the inputs “Maximum time interval number”, The “numerical value of unity” and “Sample size of the analysis interval” of the truncation threshold formation unit are the inputs of the same device, characterized in that a structural analyzer designed to generate a signal how the device works when there is a combination of the beginning of the message in the input information stream and recognition of the initial deterministic combinations, and the third memory block, the information output of the structural analyzer is connected to the information input of the current conditioner signal generator, the input of the “Search feature” of the display unit is connected to the output of the structural analyzer of the same name, the “Address” and “Clock pulses” outputs of which are connected to the inputs of the same name in the third memory block, the “Data” output of which is connected to the namesake the input of the structural analyzer, the information and clock inputs of which are respectively the information and clock inputs of the device. 2. The device according to claim 1, characterized in that the structural analyzer consists of an input register, a decoder, first and second parallel registers, a comparator, a hash function calculator, an RS trigger, a pulse generator, a key, information and synchronization inputs of the input register are according to the information and synchronizing inputs of the structural analyzer, the output of the input register is connected to the information inputs of the decoder, the first parallel register and the hash function calculator, the output of which is the output ohm "Address" of the structural analyzer, the output of the first parallel register is connected to the information input of the second parallel register and the first input of the comparator, the output of which is connected to the "Setting 0" RS trigger and the control input of the second parallel register, the output of which is the "Required sign" output structural analyzer, the decoder output is connected to the control input of the first parallel register, which triggers the input of the hash function calculator, to the “Setting 1” input of the RS trigger and is informational in the output of the structural analyzer, the second input of the comparator is the "Data" input of the structural analyzer, the direct output of the RS-trigger is connected to the control input of the key, the information input of which is connected to the pulse generator, the output of the key is connected to the control input of the comparator and is the output "Clock pulses" of the structural analyzer .

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