Automated system for controlling routing of text documents in data processing network

FIELD: computer science, in particular, engineering of automatic system for controlling routing of text documents in data processing network.

SUBSTANCE: system contains first, second, third, fourth, fifth and sixth registers, first and second blocks for identification of text documents, block for integration of control signals, two counters, adder, block for forming base address for recording finished documents and commutator.

EFFECT: increased speed of system operation by localizing range of data search addresses in server database by means of identifiers of text documents.

6 dwg

 

The invention relates to computing, and in particular to control routing of text documents in data processing.

The feature of a technical problem lies in the fact that at the input of the system sequentially in time do text documents, the contents of which requires specific wording and text processing. Such documents may include documents with texts in different languages, as well as documents, the structure of the text which is not formatted appropriately for presentation to management.

At the stage of receiving input of text documents, each of them is assigned a unique identification number (ID) and for each of them formed the credentials that are logged in the fact sheet.

The entire array of incoming original text documents is pre-sorting, which is performed by operators on specialized Workstations sort. Every sort operator works in certain areas and looking at their part of the proceeds of text documents.

In the primary viewing a text document (for brevity, we will call it material) can be classified depending on the variations of its further processing. This material may be p Ibizan a set of several classification criteria.

For materials with a particular sign should be given the opportunity of making a brief annotation, the amount of which does not exceed three lines of text.

In addition to the classification of the characteristic of the material may be marked with additional signs that reflect the nuances of treatment. For example, the content of the material can be presented in the form of a translation into Russian or based on it can be prepared the edited version in the original language.

Materials received at the stage of initial processing of a certain attribute, must go through an iterative cycle of final decision on their use.

Known systems that could be used to solve the task [1, 2].

The first of the known systems contains blocks receiving and storing data, connected to the control blocks and data blocks search and selection, connected to the blocks of the data storage and display, the clock inputs are connected to outputs of control unit [1].

A significant disadvantage of this system is that you cannot solve the problem of updating data stored in memory in the form of relevant documents, simultaneously with the solution of the issue of the content of these documents to users in real time.

Known another system, sod is Rasa blocks of data reception, the outputs are connected to the memory unit and data processing unit, the block selection time intervals, the outputs of which are connected to the unit receiving data, the block receiving user requests to the memory unit and the data processing unit, the outputs of which are connected to one inputs of the switching unit channel data output, the other input of which is connected to the block selection intervals, and outputs are the outputs of the system [2].

The last of the above technical solutions closest to being described.

Its disadvantage is the low system performance, due to the fact that the search for the requested data is in the whole volume of the database system, which leads to unnecessary loss of time searching for the information required and its subsequent processing.

The purpose of the invention is the improvement of the system performance by avoiding searches for the requested data in the whole volume of the system database and fetch data only when the identity of the processed text documents.

This objective is achieved in that in the known system, containing the first register, the information input of which is the first information input of the system, and the clock input is the first synchronizing input of the system, the second register, the information input of which is the tsya the second information input of the system, the third, fourth and fifth registers, information inputs which are the third, fourth and fifth information system inputs, respectively, and the clock inputs are the second, third and fourth clock inputs of the system, respectively, the block integration control signals, the information input of which is connected to the first output of the first register and the third register, the first counter, an information input connected to the first information output unit integration control signals, clock input connected to the first clock output unit integration control signals, and the output is the address of the system output, while the second information output unit integration of the control signals is an information the system output and the second clock output is the first synchronizing system output, the switch data transmission channels, the information input of which is connected to the outputs of the fourth and fifth registers, respectively, and the outputs are outputs of the system group, and the sixth register, introduced the first identification block of text documents, an information input connected to the second output of the first register and the clock input connected to the first clock input of the system is s, the data output connected to the first address input of the integration of the control signals, the first clock output is connected to the first clock input of the address signals of the block integration control signals, the second clock output connected to the first clock input information signals of the block integration control signals, and the third clock output connected to the installation by the input of the first register, the second identification block of text documents, an information input connected to the output of the second register, the first clock input is the fifth synchronizing input of the system, and the second clock input connected to the fourth clock output of the first identification block of text documents, the data output is connected to the second address input of the integration of the control signals, the first clock output is connected to the second clock input of the address signals of the block integration control signals, the second clock output is the second synchronizing system output, and the third clock output connected to the clock input of the second register, an adder, an information input connected to the output of the sixth register, and the output connected to the third ADRs the red input unit integration control signals, the second counter, the output of which is connected to another input of the adder block forming the base address of the entry of the final documents, one input of which is connected with the second clock input system, and the other is an installation entry system, the data output is connected to the information input of the sixth register, the first clock output is connected to the clock input of the sixth register, the second clock output connected to the synchronizing output of the adder, the third clock output connected to the third clock input of the address signals of the block integration control signals, and the fourth clock output connected to the counting input of the second counter and the second synchronization input information signals of the block integration the control signals.

The invention is illustrated by drawings, where figure 1 shows the block diagram of the system, figure 2 presents an example of a specific structural embodiment of the first identification block of text documents, figure 3 - example of a specific structural embodiment of the second identification block of text documents, figure 4 - example of a specific structural embodiment of the block integration control signals, figure 5 - example of a specific structural embodiment of the block of formation of the Deposit base address record ready documents figure 6 - example of a specific structural embodiment of the switch of the data channels.

The system (figure 1) contains the first 1, second 2, third 3, fourth 4 fifth 5th and sixth 6th registers, the first block 7, the second identification block of text documents 8, block 9 integration of control signals, the first 10 and second 11 meters, the adder 12, block 13 forming the base address of record of the finished document and the switch 14 data channels.

Figure 1 shows the first 21, second 22, third 23 and fourth 24 and 25 fifth information input system, the first 26, second 28, third 29, 30 fourth and fifth 31 clock inputs of the system, the installation log 32, and address 35 and information 36 system outputs, the first 37 and second 38 synchronizing the outputs of the system, and the group 39-41 information system outputs.

Unit 7 identification of text documents (figure 2) contains the memory block 50, made in the form of a persistent storage device, the decoder 51, the trigger 52, the elements 53-55 And elements 56-59 delay. The drawing also shows the inputs 60, 61 and outputs 62-66 block.

Unit 8 identification of text documents (figure 3) contains the memory block 70, made in the form of a persistent storage device, the decoder 71, the elements 72-75 And items 76-78 delay. The drawing also shows the inputs 80-82 and outputs 83-86 block.

Unit 9 integration of signals from the Board (figure 4) contains the first 90 91 and the second group of elements OR the first 92 and second 93 items OR. The drawing also shows the inputs 94-103 and outputs 104-107.

Blocks 13 forming the base address of the entry of the final documents (figure 5) contain the memory unit 110, made in the form of a persistent storage device, the trigger 111, elements 112-113 And element 114 OR elements 115-118 delay. The drawing also shows the inputs 120-121 and outputs 122-126.

Switch data transmission channels (6) contains the decoder 130 and groups 131-133 elements And. the drawing also shows the inputs 134, 135 and outputs 39-41.

All nodes and the blocks are assembled on the standard of potentially switching elements. Installation chain assemblies and units in the initial state for simplification of the drawing figure 1 is not shown.

The system works as follows.

Selected sorter materials consistently act on the information input 21 of the system, where they are served to the information input of the register 1 and the clock signal input 26, entered in the register 1.

Structure codogram submission on the input of the system is as follows:

CODECODECODECODECODE
IDFieldFieldFieldCONTENT
The number of the TEXTsignsignsignPART
DOCUMENTtexttexttextTEXT
(material)documentdocumentdocumentDOCUMENT

The number of fields allowed for specifying the characteristics of text documents, defined when configuring the system, taking into account the subject area, which includes the processed materials.

A substantial part of the received codogram together with the fields of the characteristics of text documents and identification number from the output 42 of the register 1 is transferred to the input 97 of the block 9, which passes through the group members 91 and OR output 105 unit 9 is issued for informational output 36 of the system.

Code identification number of the text document from the output 43 of the register 1 is supplied to the information input 60 of block 7 of the identifying numbers of the text document where the code is fed to the input of the decoder 51. The decoder 51 decodes the code identification numbers, throwing on one of its outputs a high potential.

In parallel, the clock pulse input 26 of the block 1 through the inlet 61 unit 7 receives as input element 56, where the delay is provided at the time of enrollment code in register 1 and the operation of the decoder 51, and on the direct input of the trigger 52, setting the latter in one state, when the trigger 52 outputs to the output 66 of the block 7 to the low potential from its inverted output.

With the output element 56 delays the clock pulse arrives at the inputs of elements 53-55 And polling their status.

Given the fact that open decoder 51 to one input will be only one of the items 53-55 And then passing the corresponding element And the sync pulse is fed to the input of the reading of the corresponding fixed memory constant memory (ROM) 50.

In this cell the ROM 50 stores the address of the memory locations of the database server that is used to store the document with the given ID, and reads the address code to the output 62 of the block 7.

Address code output 62 unit 7 is supplied to the information input 94 of the block 9, which passes through the elements OR groups 91, and the output 104 of the block 9 is supplied to the information input of the counter 10.

Simultaneously, the clock pulse from the output element 56 unit 7 is delayed by element 57 on the time code read address of the ROM 50 and the output 63 unit 7 is fed to the input 99 of the block 9, which passes through the element 92 OR, and output 106 unit 9 is supplied to the clock input of the counter 10, providing entry code address counter 10.

Address code output MF is tcheka 10 is issued for the address output 35 of the system.

The clock pulse from the output element 57 unit 7 again delayed element 58 at the time of entry code address counter 10 and the output 64 is fed to the input 102 of the block 9, where the element 93 OR, and output unit 107 9 available at the output 37 as a clock pulse recording at the input of the first interrupt server.

On this signal, the server goes to the subroutine entry codogram text document from the output 36 of the system at the address generated at the output 35.

Signal the end of the report the text of the document into the database server is the appearance of a clock pulse at the output of the element 59, which delays the clock pulse recording from the output of the delay element 58 at the time of entry of codogram text document in the database server. This clock pulse, first, when the installation log trigger 52 unit 7 returns to its original condition, and secondly, he exit 65 unit 7 is supplied on the installation input register 1, resetting it to its original state and thus preparing for the reception and entry into the database server the following text document.

So, are loaded into a database of all input materials to be treated, which must be presented at the Academy of Sciences of the Liz Manager.

The system Manager is able to view the submitted materials with the imaging characteristics of primary processing. For each material, he takes one of the following decisions:

is transferable to the next stage of decision-making about the use of the material;

further processing is not subject.

The following iteration of the loop of decision making typically correspond to the scheme: from Manager to senior Manager and senior managers to the head of the Department. For the next stage of the routing of the stream is only sent messages, received the sign of "work" in the previous step.

For materials that have received the sign of passing on to the next step, advanced function setup weights (three possible values)that determine the priority of their implementation (priority processing). By default, a text document is a lower weighting factor.

The system provides the ability to use flexible routing allows you to route specific material, received a sign directly to a specific person or group of users.

To this end, the Manager at its automated workplace (Armagh) specifies the identification code of its automated work place, selects identification, the district code of the document, which should be distributed among the performers for processing, and presses a key Issue.

Structure codogram issued with ArmA Manager, has the following form:

CODECODE
Address AWP ManagerIdentification code of the text of the document

At the signal to "Grant" identification code Armagh Manager is fed to the input 24 of the system and the identification code of the text document to the input 22 of the system. Using clock signals at the clock inputs 29 and 31 registers 4 and 2, these codes are entered in the appropriate registers.

For this purpose, the clock signal with ArmA Manager with input 31 of the system is fed to the input 81 of the block 8. Input 81 clock signal is supplied to one input element 75 And at the other input of which the input 82 is supplied with a high potential with inverted output of the trigger 52 unit 7, when the trigger 52 is in original condition. If the trigger 52 is in a single state, which indicates that at the moment is to download the database of incoming materials, the element 75 And will be closed by the second entry.

This solution allows you to block the circulation Manager to the database system in the MoE, the coefficients of time, when it is loading the input materials.

At an enabling potential at the input 82 of the synchronizing pulse input 81 passes through the element 75 And, first, immediately available at the output 86 of the block 8, whence it is fed to the clock input of the register 2, providing the entry in the register 2 identification code of the text document.

From the output of the register 2 identification code of the text of the document is given to the input 80 of the block 8 and then fed to the input of the decoder 71.

The decoder 71 decodes the code identification numbers, throwing on one of its outputs a high potential.

In parallel, the clock pulse from the output element 75 And unit 8 receives an input element 76, where it is delayed by a time entry code in register 2 and the operation of the decoder 71, and the output element 76 delays the clock pulse is fed as the inputs of the elements 72-74 And polling their status, and to the input of the delay element 77.

Given the fact that open decoder 71 to one input of only one of the elements 72-74 And then passing the corresponding element And the sync pulse is fed to the input of the reading of the corresponding fixed memory constant memory (ROM) 70.

In this cell the ROM 70 stores the address of the memory cell database server, otvedennogo storage of the document with the given ID, and reads the address code to the output 83 of the block 8.

Address code output 83 unit 8 is supplied to the information input 95 of the block 9, which passes through the elements OR group 90, and the output 104 of the block 9 is supplied to the information input of the counter 10.

Simultaneously, the clock pulse from the output element 76 unit 8 is delayed element 77 on the time code read address of the ROM 50 and the output 84 of the block 8 is fed to the input 100 of the block 9, which passes through the element 92 OR, and output 106 unit 9 is supplied to the clock input of the counter 10, providing entry code address counter 10. Address code from the output of the counter 10 is issued for the address output 35 of the system.

The clock pulse from the output element 77 unit 7 again delayed element 78 at the time of entry code address counter 10 and output 85 is output 38 as a clock pulse read at the input of the second channel interrupt server.

On this signal, the server goes to the subroutine read a text document at the address generated at the output 35, and outputting codogram the requested material to the input 25 of the system. This codogram input 25 will be entered into the register 5 with the clock signal server at the input 30.

Address code Armagh Manager from the output of the register 4 is transferred to the input 134 of the block 14, and the code of codogram extravaga document to the input 135 of the specified block. Input 134 address code ArmA is fed to the input of decoder 130, which extends at one of its outputs a high potential, opening the appropriate group 131-133 elements And, on the other inputs are input 135 comes codogram text document.

Codogram text document with the output of the corresponding group elements And switched through the corresponding output 39-40 on the information input ArmA Manager, where and displayed on the monitor screen.

Manager scans the charged material with the imaging characteristics of primary processing. For each material, he takes one of the following decisions:

is transferable to the next stage of decision-making about the use of the material;

further processing is not subject.

If the Manager decides to transfer material to the next stage - the stage of the decision by the Head, then on his arme he sets the address code ArmA head and presses "Transfer Manager".

When the keystroke code address ArmA leader is fed to the input 24 of the system and using the clock pulse received at the input 29 of the system is recorded in the register 4. From the output of the register 4 address code is received at the input 134 of the block 14, which switches the transmission circuit codogram text document from the output of the register 5 through the corresponding output 39-41 system on the arm of the head in the manner described above.

Workstation Manager allows viewing of the material obtained with an indication of priority processing. For each material the head can be performed in one of the following:

- the diversion message to a slave, so that he in turn appointed the executor;

direct appointment of contractor by selecting it from the list.

Consider the system on the example of direct appointment of a contractor.

To this end, his arme leader sets the address code ArmA artist by an artist on their list of the total number of performers and presses the "Contractor". This code addresses ArmA contractor is fed to the input 24 of the system and stored in the register 4 with the clock pulse received at the input 29 of the system.

Address code ArmA contractor from the output of the register 4 is transferred to the input 134 of the block 14, to the input 135 of which was submitted codogram text document. Input 134 address code ArmA is fed to the input of decoder 130, which extends at one of its outputs a high potential, opening the appropriate group 131-133 elements And, on the other inputs are input 135 comes codogram text document.

Codogram text document with the output of the corresponding group elements And switched through appropriate in the course 39-40 on the information input ArmA contractor, where and displayed on the monitor screen.

The contractor performing, for example, a translator of the text document, proceeds to its translation. Working on the preparation of a working version, the translator has the ability to perform the following functions:

to view the credentials of the passport of the material and to fill some of them. In some cases, we put the values must be selected from the list of valid provided the relevant lists;

- to bind the composite materials with the use of the mechanism of formation of "virtual document", which is a grouping of a subset of related materials, indicating the order of occurrence of each item;

to install a sign that this material is subject to distribution to stakeholders and user groups;

- to set the sign on the advisability of obtaining repeat material.

Upon completion of the work of the working version of the text document translator assigns it a sign of "control"than initiates the transfer process at the stage of approval. Perform this operation puts the material in a mode that prohibits the contractor editing the text.

With this purpose on his arme, the translator sets the address code ArmA head and presses a key "is and control". This code addresses ArmA leader is fed to the input 24 of the system and stored in the register 4 with the clock pulse received at the input 29 of the system and codogram working draft text of the document is fed to the input 25 of the system and will be entered into the register 5 with the clock pulse supplied to the input 30 of the system.

Address code ArmA leader from the output of the register 4 is transferred to the input 134 of the block 14, to the input 135 which is codogram working draft of the text document. Input 134 address code ArmA head to the input of the decoder 130, which extends at one of its outputs a high potential, opening the appropriate group 131-133 elements And, on the other inputs are input 135 comes codogram working draft text document.

Codogram working draft of the test document to the output of the corresponding group elements And switched through the corresponding output 39-40 on the information input ArmA leader, where and displayed on the monitor screen.

After review and approval by the Director working draft text document as the final he on his arme presses the Document is ready to report" and codogram final text document with the release of ArmA leader is issued to the input 23 of the system. Input 23 codogram postopen information input register 3, in which it is entered using the clock pulse received at the input 28 of the system.

From the output of the register 3 codogram final text of the document is fed to the input 98 of the block 9, passes through the elements 91 OR group to the output 105 of the block 9, and then is issued to the information output system 36 for subsequent entries in the database server.

In parallel, the clock pulse input 28 of the system is fed to the input 120 of the block 13 and further to one input elements 112, 113 And whose state is determined by the trigger 111. Given that the trigger 111 is in the initial state, a high potential with inverted output element 113 And will be opened and the element 112 is closed low potential with direct access.

As a result of this input pulse passes through the element 113 And the input of the read memory block 110, made in the form of a persistent storage device in a fixed memory location which stores the base address from which the database server will record the approved final text documents.

As a result of reading the base address from the output 122 of the block 13 is supplied to the information input of the register 6, where he entered a synchronizing pulse from the output of element 113 And detained element 115 on the time code read from the ROM 110.

From the output of the register 6 of the base is the address of record of the final text of the document is fed to the input 45 of the adder 12, to the other input 44 which receives the counter 11, which is in the initial state.

In addition, the clock pulse from the output of element 115 delay comes as a direct input trigger 111, setting it in one state, in which the element 113 And for the next input pulse input 135 is closed and the element 112 And is open and the input of the delay element 116, delaying the clock pulse at the time of entering the code base address register 6.

From the output of the delay element 116 clock pulse through the element 114 OR the output 124 of the block 13 is supplied to the clock input 46 of the adder 12, in which the adder 12 adds the testimony of the register 6 with zero counter 11.

In addition, this pulse is delayed by element 117 at the time of actuation of the adder 12 and available at the output 125 of the block 13 as a clock pulse entering the code address in the counter 10. The specified pulse is fed to the input 101 of the block 9, is the element 92 OR output 106 is supplied to the clock input of the counter 10, bringing it to the base address entry of the final documents.

After that, the clock pulse from the output of the delay element 117 is again delayed by element 118 at the time of actuation of the counter 10 and available at the output 126 of the block 13 as a clock pulse recording d is the R in the database server.

This pulse from the output 126 of the block 13 is fed to the input 103 of block 9, where the element 93 OR output unit 107 9 available at the output 37 of the system as a clock pulse to write a summary document from the output 36 of the system database on the address generated at the output 35 of the system.

The clock pulse recording output 37 is fed to the input of the first channel interrupt that the server passes to the subroutine to write a summary of a text document from the output 36 to the database at the address set on the output 35.

In addition, the clock pulse from the output 126 of the block 13 is supplied to the counting input of the counter 11, increasing his testimony on the unit and locking the fact of database write the final text of the document.

Address of record the next outcome document, which will be processed in the system will be generated at the output of the adder 12 by adding the base address of a record in the register 6, and the counter 11. When the next clock pulse received at the input unit 120 13 passes now through the element 112, And then the element 114 OR immediately at the output 124 of the block 13. This clock pulse, the adder sums the counter 11 and the register 6, thus forming the next address to write another outcome document.

The array results of the x documents will be stored in the database as long until the system is set to the initial state by applying a signal to the input 32 of the system.

The signal input 32 of the system is input 121 of the block 13, which comes on the installation log trigger 11, which, returning to its original state, a high potential with inverted output opens the element 113, And a low potential with direct access closes the circuit passing signals through element 112 I.

Thus, the introduction of new units and new constructive relationships will significantly improve the system performance by avoiding searches for the requested data in the whole volume of the database server and fetch data only when the identity of the processed text documents.

Sources of information

1. U.S. patent No. 5455947 And 03.10.95.

2. U.S. patent No. 5713014 And 27.01.98 (prototype).

Automated control system for the routing of text documents in the network data containing the first register, the information input of which is the first information input of the system, and the clock input is the first synchronizing input of the system, the second register, the information input of which is the second information input of the system, the third, fourth and fifth registers, information inputs which are the third, fourth and fifth information inputs is istemi respectively, and clock inputs are the second, third and fourth clock inputs of the system, respectively, the block integration control signals, the information input of which is connected to the first output of the first register and the third register, the first counter, an information input connected to the first information output unit integration control signals, clock input connected to the first clock output unit integration control signals, and the output is the address of the system output, while the second information output unit integration of the control signals is an information system output and the second clock output is the first synchronizing system output, the switch data transmission channels, the information input of which is connected to the outputs of the fourth and fifth registers, respectively, and the outputs are outputs of the system group, and the sixth register, characterized in that the system includes the first identification block of text documents, an information input connected to the second output of the first register and the clock input connected to the first clock input of the system, the data output connected to the first address input of the integration of the control signals, the first synchro is serouse output connected to the first clock input of the address signals of the block integration control signals, the second clock output connected to the first clock input information signals of the block integration control signals, and the third clock output connected to the installation by the input of the first register, the second identification block of text documents, an information input connected to the output of the second register, the first clock input is the fifth synchronizing input of the system, and the second clock input connected to the fourth clock output of the first identification block of text documents, the data output connected to the second address input of the integration of the control signals, the first clock output is connected to the second clock input of the address signals of the block integration control signals, the second clock output is the second clock the system output, and the third clock output connected to the clock input of the second register, an adder, an information input connected to the output of the sixth register, and the output connected to the third address input unit integration control signals, a second counter, the output of which is connected to another input of the adder block forming the base address of the entry of the final documents, one input of which is connected with the second sinhroneziruyu the entrance system and the other is an installation entry system, the data output is connected to the information input of the sixth register, the first clock output is connected to the clock input of the sixth register, the second clock output connected to the synchronizing output of the adder, the third clock output connected to the third clock input of the address signals of the block integration control signals, and the fourth clock output connected to the counting input of the second counter and the second synchronization input information signals of the block integration control signals.



 

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6 dwg

FIELD: user registration method.

SUBSTANCE: method includes user sending a request to confidential unit through one of multiple financial terminals for servicing user cards, by inserting a card and personal PIN-code of card and selection of service type, user card servicing terminal checks PIN-code of card, forms and sends a request to processing center of bank, to which aforementioned terminal belongs and in which affiliation of card with payment system is determined and emitting bank is determined, service type is fixed and sum deducted from user account, processing center sends request to database server for emitted cards, presence and state of user account is checked, aforementioned sum of money is deducted, user data is received and sent to bank server for controlling registration of users, two series of code symbols are formed, one of which is sent to database server of registered users.

EFFECT: registration is performed fully in electronic mode and in automatic real time scale mode.

2 cl, 1 dwg

FIELD: data access technologies.

SUBSTANCE: method includes assignment of simplified network address, recording URL and converting numbers into storage system with net access, inputting assigned number into computer, transferring inputted number to storage system, converting number to URL, receiving page matching URL, and displaying it. Method for use in operation systems for message transfer include intercepting system level messages to certain objects and forming pseudonym messages during that. Systems realize said methods.

EFFECT: broader functional capabilities.

12 cl, 30 dwg

FIELD: computers.

SUBSTANCE: system has entries memory block, words memory block, control block, substitutions block, n blocks for searching and replacing.

EFFECT: broader functional capabilities.

17 dwg

FIELD: computers.

SUBSTANCE: system has nine registers, four address selectors, triggers, AND elements, OR elements and delay elements.

EFFECT: higher speed.

8 dwg

FIELD: computers.

SUBSTANCE: system has operation mode setting block, first and second blocks for selecting records addresses, block for forming addresses for reading records, data output block, first and second record codes comparison blocks, records quality comparison block, year intervals comparison block, records selection control block, register, adder and OR elements.

EFFECT: higher speed of operation.

10 dwg

FIELD: computers.

SUBSTANCE: system has memory for programs, including browser, display block, database for storing documents, addressing control block, while each document of base has at least one link with indicator of its unique number and indicator with address of program for control stored in addressing control block, system contains also, connected by data buses and control of other blocks of system, memory for links of couples of unique numbers of links and forming means for lists of unique numbers of documents links, which are interconnected.

EFFECT: higher efficiency.

2 cl, 1 dwg

FIELD: telecommunication networks.

SUBSTANCE: messages, sent by cell phones, are formed by means of printed and public-distributed classifier, wherein at least one category is made with possible detection of at least one identifier of individual mark of object, identifier is sent by sender via at least one message to computer server with software, which transfers such message into database record at server for its transfer to at least one receiver, or searches for such record in database at server in accordance to received message and transfers to sender of such message at least one found database record.

EFFECT: broader functional capabilities.

2 dwg

FIELD: web technologies.

SUBSTANCE: method for integration of printed business documents, requiring original signature, with electronic data concerning these documents and later extraction of data, inputted for forming documents, is characterized by steps for forcing end user or agent to input all necessary data for forming of required document, saving collected data in database, linking saved data to unique ID code and printing unique ID code on printed document during printing. Printed documents is signed by end user and sent together with supporting documentation. When document is received by business-client, business-client inputs ID code, which is then used for access to saved data, and updates private database of business-client with all data, used for creation of original documents.

EFFECT: higher efficiency.

2 cl, 7 dwg

FIELD: computer science.

SUBSTANCE: device has string memory block, comparator, memory block for words and substitutes, block for analysis and forming of displacement results, block for storing string address, control block.

EFFECT: broader functional capabilities, higher reliability.

10 dwg

FIELD: data bases.

SUBSTANCE: method includes presenting operations at all levels of company in form typical product life cycle tree, wherein existing objective functional-technological connections of each manufacture stage are decomposed, and forming information system in form of pertinent-relevant complex information system and search, for which typical structure-information modules of information system are formed, system objective information requirements of data consumers, being a result of decompositions by levels of operations and problems, are determined as precisely as possible, data base of found documents in form of files is formed of key nodes with set of elementary data block for each system information requirement and files of information system modules, starting from lower levels of current stage and then upwards, while each data block has a list of pertinent documents ordered by determined information requirements.

EFFECT: higher search efficiency.

13 cl, 11 dwg

FIELD: computer science.

SUBSTANCE: system has first, second, third, fourth and fifth registers, first and second memory blocks, first, second and third decoders, triggers, elements AND, OR and delay elements.

EFFECT: higher speed of operation.

1 dwg

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