Information-reference system of industrial-economical characteristics of airlifts

FIELD: computer engineering, in particular, informational-reference system of industrial-economical characteristics of airlifts.

SUBSTANCE: system contains two registers, data commutation block, block for selecting automated workplace of user, block for identification of type of data being requested, block for selection of viewing direction of reference data, block for commutation of synchronization signals, reverse counter, block for receiving database update files, block for identification of type of data being updated, two blocks for comparing codes.

EFFECT: increased speed of system operation due to no need for searching information across whole volume of server database.

10 dwg, 1 app

 

The invention relates to computer technology, in particular to the reference system of production and economic indicators of air.

Feature reference system air transport company passenger transport is that it should provide data on the production and economic performance of the traffic in real time as the administration of air transport companies and passengers.

The main reference data, which should provide a system of air transport company passenger transport include:

- flight characteristics of aircraft weight, passenger capacity, cargo capacity, fuel consumption, range, speed;

- network of flight routes, indicating the airports of departure, intermediate landings and destination, the distance between points of departure and landing, actual and planned transportation of passengers, cargo and mail;

- information about the presence of aircraft and the amount of hours flown; resource characteristics of the airframe, engines, data on labour input maintenance plan (completed) major repairs planned (paid) rental/leasing, insurance payments;

- the crew with the all features of the flight (normal, reinforced, double) engineering team; data on wages accrued payroll;

- planned/executed relay crew;

current and projected prices for fuel and lubricants (POL);

- rate fees, tariffs and charges for airports and air navigation services; rates for the execution ground of commercial and technical services flight;

- existing and planned rations and rates catering for passengers and crew;

- information that has a sign referring to a specific aircraft types.

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 appropriate indicators, simultaneously with the solution of the issue of the content of these data to users in real time.

Known and other system containing blocks of data reception, the outputs of which are connected with the unit PA is ATI 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 necessary reference data is maintained throughout the volume of the database server, which leads to unnecessary loss of time and the impossibility of obtaining reference information in real time.

The purpose of the invention is the improvement of the system performance by avoiding searches for the requested reference data throughout the volume of the database server and localization of search only for reference data types.

This objective is achieved in that in the known system, containing the first register, information and clock inputs of which are the first information and the clock inputs of the system, respectively, and the output is connected to one information input unit switching data, the outputs of which are informational output and group information system outputs, the second register, the information input of which is the second information input of the system, the unit receiving the update files, data, information input which is the third information input of the system, first, second and third clock inputs of which are the second, third and fourth clock inputs of the system respectively, the first information output an information output system, and the first clock output is connected to a clock input of the second register, and a reversible counter, the information output of which is the address of the system output, and the unit direction of the viewing reference data, the first and second control inputs of which are the first and second control inputs of the system, and the third the control input is connected to the control output unit receiving the update file data block selection automated working place of the user information whose input is connected to one output of the second register, a clock input connected to the first clock input of the system, and information and clock outputs are connected to other information and clock inputs of the switching unit data respectively, the entered identification block type of the requested data, information which input connection is replaced with other information the output of the second register, the clock input is connected to the first clock output unit receiving the update files of data, one data output connected to an information input section for selecting the direction of viewing reference data and clock output connected to the clock input unit direction of view reference data block identification of the type of the updated data, information input connected to the second information output unit receiving the update files, data, and clock input connected to the second clock output unit receiving the update file data, the first block of code compares, an information input connected to the third information output unit receiving the update file data, the second block comparison codes information the inlet of which is connected to the fourth information output unit receiving the update files, data, clock input is connected to one output of the first block of code compares the first input is connected to the fourth clock input unit receiving the update file data, and a second output connected to the first mounting unit receiving the update file data, and a switching unit of the synchronization signals, the information input of which is connected with the information output block type identification for ratively and updated data, respectively, the first clock input connected to the clock output unit to identify the type of the requested data, the second clock input is connected to the synchronizing output of block identification of the type of the updated data, the third and fourth clock inputs connected to respective outputs of the first block of code compares the fifth clock input is connected to the second output of the second block of code compares the first control input connected to one output unit of the direction of view of the reference data and the second control input connected to another output of the block select the direction of the viewing reference data, the first and second clock outputs are first and second clock outputs of the system, the third clock output connected to the clock input of reversible counter, the fourth clock output connected to the counting input of the reversible counter, the fifth clock output connected to the clock input of the first unit of comparison codes, the information output is connected to the information input of the reversible counter and the installation exit is connected with the installation entrance reversible counter with another installation input unit receiving the update file data, while the fifth clock input unit receiving files update is of data connected to the first output of the first unit of comparison codes the subtractive input of the reversible counter is connected with the second output unit of the direction of view of the reference data and the third output of the first block of code compares is the third synchronizing system output.

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 switching unit data figure 3 - example of a specific structural embodiment of the block selection automated working place of the user figure 4 - example of a specific structural embodiment of block identification of the type of the requested data, figure 5 - example of a specific structural embodiment of the block select the direction of the viewing reference data figure 6 - example of a specific structural embodiment of the switching unit synchronizing signals, figure 7 - example of a specific structural embodiment of the block receive files update database on Fig is an example of a specific structural embodiment of the identification block type updateable data figure 9 - example of a specific structural embodiment of the first unit of comparison codes figure 10 - example of a specific structural embodiment of the second unit of comparison codes.

The system (figure 1) contains the first 1 and second 2 registers, block 3 communalizing, unit 4 selection of the automated workplace of the user, block 5 identify the type of data being requested, block 6 select the direction of the viewing reference data block 7 of the switching clock signal, and a reversible counter 8, block 9 receive files database update, block 10 identify the type of the updated data, the first 11 and second 12 blocks comparison codes.

Figure 1 also shows the first 15, second 16 and 17 third information input system, the first 18, 19 second, third 20 and fourth 21 clock inputs of the system, the first 22 and second 23 control inputs of the system and address 25 and information 26 outputs system information outputs 27-29 group of system outputs, the first 30, second 31 and 32 third clock outputs of the system.

Unit 3 switching data (figure 2) contains the register 40, the decoder 41, the first 42 and second 43 and 44 third group of elements And the element 45 delay. The drawing also shows the first 46 and second 47 information and synchronizing 48 inputs of the block, as well as information 27-29 outputs group outputs of the unit and system.

Unit 4 selection of automated work place of the user (figure 3) contains the memory block 50, made in the form of a persistent storage device, the decoder 51, the elements 52-54 And the element 55 and OR items 56-57 delay. The drawing also shows information 58 and si is kreisiraadio 59 unit, as well as information 60 and the clock 61 outputs of the block.

Unit 5 identify the type of the requested data (figure 4) contains the memory block 63, made in the form of a persistent storage device, the decoder 64, the elements 65-67 And element 68 OR, and elements 69-70 delay. The drawing also shows information 72 and the clock 71 inputs of the block, as well as information 73, 74 and clock 75 outputs of the block.

Unit 6-direction of view reference data (figure 5) contains the register 80, and a reversible counter 81, the Comparators 82, 83, the first 84 and 85 second elements And the first 86, 87 second and third 88 elements OR, the first 89, 90 second and third 91 elements of the delay. The drawing also shows information 92 and the clock 93 unit, the first 22 and second 23 and 94 third control inputs and outputs 95, 96 of the block.

Unit 7 switching clock signals (6) contains elements 97-101 OR elements 102 OR group elements 188, 189 delay. The drawing also shows the inputs 103-111, and outputs 30, 31, 114-118 block.

Unit 9 receive files update database server (Fig.7) contains registers 120-123, the trigger 124, item 125, And the elements 126-128 OR.

The drawing also shows an information input 17, the clock inputs 19-21, 129-130 and installation inputs 131-132 block, and outputs 135-141 block.

Unit 10 identify the type of the updated data is (Fig) contains the memory block 150, made in the form of a persistent storage device, the decoder 151, items 152-154 And element 155 OR, and elements 160-161 delay. The drawing also shows information 1622 and synchronization 163 unit, as well as information 164 and clock 165 outputs of the block.

Unit 11 comparison of codes (Fig.9) contains a counter 170, the comparator 171 and elements 172-173, 190 delay.

The drawing also shows information 174 and clock 175 inputs and outputs 176-178 block.

Unit 12 comparison of codes (figure 10) contains a counter 180, the comparator 181, elements 182, 183 delay.

The drawing also shows information 184 and clock 185 the inputs and outputs 186, 187 block.

All nodes and elements of the system are made on the standard of potentially switching elements. To simplify the circuit drawing of the initial installation of assemblies and units in the initial state not shown.

Sources of input data for the system are the various service airlines, in particular, service logistics, service of commercial support ground operations flight complex of ground handling of passengers, and the Department of the economy (see table).

The system works as follows.

To obtain the necessary background information from the database of reference system is each user on his automated workplace forms codogram request, having the following structure:

CodeCode
IDID
type the required dataArmA user

After completion of the formation of codogram query the user presses the View button. While codes of the type identifier data and identifier ArmA user via the input 16 are received in the case 2, where they are recorded clock pulse received at the input 21 of the system.

Input 21 this clock pulse is fed to the input of block 9 and passes through the element 125 I. the Element 125 And holds high potential with inverted output of the trigger 124, which is in the initial state. The clock pulse passes to the output 139 of the block 9, and then is supplied as the clock input of the register 2, and the clock input 71 unit 5.

With one output register 2 code data type identifier is supplied through the inlet 72 unit 5 to the input of the decoder 64.

The decoder 64 decodes this code, by issuing on one of its outputs a high potential. For definiteness, suppose that a high potential is received at one input element 65 I.

In parallel, the clock pulse from the input 71 of the block 5 is delayed element 69 at the time Zane the program code in register 2 and the operation of the decoder 64 and, next, query the status of items 65-67 I.

Given the fact that open on one input will be only element 65 And, after this item, the sync pulse arrives, firstly, to the input of the read fixed memory permanent storage device 63.

In the fixed memory cell stores the code of the reference address of the first memory location of the requested data type in the database server and the code number of records of this type in the database server.

Structure codogram in the fixed memory cell has the following form:

CodeCode
the reference address of the first

memory
the number of records

the requested data type
the requested data typein the database server
in the database server

Code reference address of the first memory cell and the code number of records requested data type is read from a fixed memory location and proceed to the outputs 73 and 74 of the block 5.

Code reference address of the first memory cell from the output 73 unit 5 is supplied to the information input unit 103 7, then passes the elements 102 OR group and output 115 unit 7 is supplied to the information input reverse scetchy is 8.

In parallel, the pulse reading fixed-cell ROM 63 block 5, having the element 68 OR delay element 70 delay time read the contents of a fixed cell ROM. Next, exit 75 unit 5 this pulse is fed to the input 105 of the block 7, where it sounds like the element 99 and OR output 114 unit 7 is supplied to the clock input of the reversible counter 8, locking in the counter code reference address of the first memory cell in the database server.

In addition, the same pulse input 105 unit 7 passes the element 98 OR delayed element 189 delay time preset code reference address counter 8, and the output 31 of the system it is fed to the input of the first interrupt server.

On this signal, the server goes on a routine survey of the contents of the database at the address formed by the address output of the system 25 and outputting the read data via the input 15 of the system information to the input of the register 1, where they are recorded synchronizing pulse server at the input 18 of the system.

In parallel, the code number of records requested data type from the output 74 of the block 5 is supplied through the inlet 92 of the block 6 to the information input of the register 80, which is also written by a pulse from the output 75 of the block 5.

Simultaneously, the ID code ArmA user with the second output of the register 2 is supplied che the ez input 58 unit 4 to the input of the decoder 51.

The decoder 51 decodes the ID code ArmA user, throwing on one of its outputs a high potential. For definiteness, suppose that a high potential is received at one input element 52 I.

In parallel, the clock pulse from the inlet 18 through the inlet 59 unit 4 delayed element 56 during operation of the decoder 51, and then queries the state of the elements 52-54 I.

Given the fact that open on one input will be only element 52 And, after this item, the sync pulse arrives, firstly, to the input of the read fixed memory permanent storage device 50, where the stored address code ArmA user, and reads it through the outlet 60 of the block 4 to the information input 46 of the block 3.

Secondly, the same pulse reading, passing the element 55 OR delay element 57 delay time read the contents of a fixed cell ROM. Next, exit 61 unit 4, this pulse is fed through the inlet 48 of the block 3 to the clock input of the register 40, locking in the register address code ArmA user.

The decoder 41 decodes address code ArmA user and a high potential on one of its outputs open items And one of the groups 42-44. At the same time, the pulse from the input 48 of the block 3, the delayed delay element 45 at the time sebatian what I decoder 41, code first few entries from the output of the register 1 through the inlet 47 of the block 3 and the corresponding group elements And 42-44, through the corresponding output 27-29 issued on the arm of the user.

The user is able to view all entries for the selected data type in the database server.

To do this, the user uses the buttons "Forward" and "Back", the signals from which are received at control inputs 22, 23 system, respectively.

Given that the user viewed the records of the selected type of data is possible only after the end of the update mode of the database server, the high potential trigger 124 block 9, coming from the output 141 of the block 9 to the input 94 of the block 6, the elements 84, 95 And will be opened.

When you press "Forward" pulse input 22 of the system passes through the element 84 And at the counting input of the counter 81, the locking viewership records. This is the number of viewings of records is compared by the comparator 82 with the number of records of the selected type, as recorded in the register 80, the signal coming from the output of the delay element 89, delaying the pulse from the output of the element 84 And the response time of the counter 81.

If the number of hits is less than the specified number of entries in the register 80, the output 190 of the comparator 82 is formed pulse received through the element 87 OR 95 exit block 6. Then, this pulse the pulse through the inlet 106 of the block 7 and the element 100 OR fed to a summing input of reversible counter 8, forming a next read address output 25.

In addition, the same pulse, after passing through the element 98 OR delay element 189, delaying the impulse response time reversible counter is held at the output 31 and then again fed to the input of the first interrupt server.

On this signal, the server goes back to a routine survey of the contents of the memory cell at the address formed by the address output of the system 25 and outputting the read data via the input 15 of the system information to the input of the register 1, where they are recorded synchronizing pulse server at the input 18 of the system.

Describes the process of reading records from the database server and issue them on a workstation user continues until the number of entries in the register 80 unit 6 will not be equal to the number read from the database records, recorded by the counter 81. The specified time will be recorded by the issuance of the pulse at the output 191 of the comparator 82.

The pulse from the output of the comparator 191 82, first, through the element 88 OR output 96 of the block 6 and then to the subtractive input of reversible counter 8, reducing its readings on the unit. In addition, the same pulse received at the input 107 unit 7 passes the element 98 OR delayed element 189, check the pulse on time sebatian the reversible counter 8, passes to the output 31 of the system and then again fed to the input of the first interrupt server.

On this signal, the server goes back to a routine survey of the contents of the memory cell at the address formed by the address output 25 of the system and outputting the read data via the input 15 of the system information to the input of the register 1, where they are recorded synchronizing pulse server at the input 18 of the system.

Secondly, the same pulse from the output 191 of the comparator 82 is delayed by the delay element 91 for the duration of the pulse and through the element 86 OR supplied to the subtractive input of the counter 81, reducing his testimony.

The user then goes to the opposite view records of the seller by pressing the Back key.

Pulse input 23 through the elements 85 AND 86, OR, first goes to the subtractive input of the counter 81, and, secondly, after a delay element 90 at the time of actuation of the counter 81 is supplied to the clock input of the comparator 83. On this signal, the comparator 83 compares the counter 81 with "zero". If the counter 81 is greater than zero, then the output 192 of the comparator 83 is formed a signal through the element 88 OR output 96 of the block 6 and further to the subtractive input of the reversible counter 9.

If the counter 81 will be equal to zero, then the output 193 of the comparator 83 is formed is : momentum through the element 87 OR analogous to the output 95 of the block 6 and then through the inlet 106 unit 7 is fed to a summing input of reversible counter 8, putting the user in direct view records in the database server.

A significant advantage of this reference system is the fact that the updating of the database system is implemented in real time without stopping the system for updating of data.

For this purpose, each of the services of the airline generates a file update the system database with the following structure:

codeCODECODECODE
IDThe number of recordsInformationNumber
specificcontained inpart reflectingdata types
data typethis data typenumeric valuescontained
relevantin file
indicatorsupdate

Formed on the workstations is sootvetstvujushij services airline update file database is transferred and written into the buffer memory system (not shown), whence it is supplied to the information input 17 of the system. The buffer memory is executed in the form of a stack that provides a view of the next entry on its output after reading the previous one.

From the entrance 17 to the file system updating is supplied to the information input unit 9, where it is served to the information inputs of registers 120-123. Simultaneously, the clock pulse input 19 passing through the respective elements 126-128, OR the first three sections of the file structure recorded in the relevant registers 120-122, and the clock pulse input 20 of the fourth section structure of a file recorded in the register 123.

Simultaneously, the same clock pulse from the output element 126 OR first, is fed to a single input trigger 124, setting it in one state, where the output 140 of the block 9 will be given a low blocking potential, blocking users access the database server during its actualization.

Secondly, the clock pulse from the output element 126 OR passes to the output 141 of the block 9 and then enters the clock input 163 unit 10, the information input 162 whose output register 136 120 enters code type identifier of the updated data.

The decoder 151 decodes the ID code of the updated data by issuing on one of its outputs a high potential. For definiteness, suppose that a high potential is received at one input element 154 I.

In parallel, the clock pulse input 163 of the block 10 is delayed by element 160 at the time of entering code in the register 120 and actuation of the decoder 151 and then queries the state of the elements 152-154 I.

Given the fact that open on one input will be only element 154 And then passing this element And the sync pulse arrives, firstly, to the input of the read fixed memory permanent storage device 150 that stores code reference address of the first memory cell of the updated data type in the database server, and reads its contents through the output 164 of the block 10 to the input 104 of the block 7.

Input 104 code reference address through the elements 102 OR group, and the output 115 unit 7 is supplied to the information input of the reversible counter 8.

Secondly, the pulse reading through the item 155 OR delay element 161 delay time read the contents of a fixed cell ROM, and then exit 165 unit 10 is fed to the input 108 of the block 7. Input 108 of the block 7 to this impulse, passing the element 99 OR output 114 unit 7 is supplied to the clock input of the reversible counter 8, the locking code reference address of the first memory cell of the updated data type in the database server.

Thirdly, the same momentum, p is Aida element 97 OR delayed element 188 delay time preset code reference address in the reversible counter 8, and then flows through the output system 30 to the input of the second channel interrupt server.

On this signal, the server goes to the routine of writing the contents of the register 122 unit 9 to the database server at the address generated at the output 25 of the reversible counter 8.

Simultaneously, the pulse output 117 unit 7 is fed to the input 175 unit 11, which is delayed by element 172 at the time of the survey and write the content server register 122 in the database and is supplied to the counting input of the counter 170, locking in the counter unit as the fact updating the first record in the database server.

In addition, this same pulse is delayed element 173 delay time counter 90 and is supplied to the clock input of the comparator 171 comparing the number of entries of this type of data in the register 121 with a meter 90 entries.

If the number of entries in the counter 90 is less than the number of entries in the register 121 unit 9, the output of comparator 176 171 pulse appears that, first, is fed to the input 109 of the block 7 passes through the element 100 OR the summing input of the reversible counter 8, thus forming the next address record in the server database, and secondly, it is fed to the input 130 of the block 9 and then through the element 128 OR p is admitted to the clock input of the register 122, putting it another recording file updating from the buffer memory.

The same pulse from input 109 of the block 7 passes through the element 97 OR delay element 188 delay time adding new content part of the record in register 122 of the block 9 and re-enters through the output system 30 to the input of the second channel interrupt server.

On this signal, the server goes back to a routine survey of the register 122 of the block 9 and write its contents to the database server at the address generated at the output 25 of the reversible counter 8.

At the same time, the pulse from the output element 188 delay again through the exit 117 unit 7 is fed to the input 175 unit 117, where the delayed element 172 at the time of the survey and write the content server register 122 of block 9 in the database and is supplied to the counting input of the counter 170, locking in counter another unit, as the fact actualization of the next record in the database server.

In addition, this same pulse is delayed element 173 delay time counter 170 and again fed to the clock input of the comparator 171 comparing the number of entries in the register 121 unit 9 with a meter 170 entries.

Describes the process of adding a substantial part of the records of the update file into the database server continues until the number of entries in the register 121 unit 9 is e is equal to the number of records recorded by the counter 170 unit 11. The specified time will be recorded by the issuance of the pulse at the output of comparator 177 171 unit 11.

This impulse is, firstly, to the input 110 of the block 7, the pass element 101 OR output 118 unit 7 enters the reversible counter 8 and through the inlet 131 of block 9 on the installation inputs of registers 120-122, setting them in their original state.

Secondly, this pulse at the output 177 of the comparator 171 is delayed by the delay element 190 at the time of installation registers 120-122 block 9 and the counter 8 in the initial state and the output 178 of the block 11 is issued to the output 32 of the system, whence it is fed to the control input of buffer memory (not shown). This signal at the output of the buffer memory will be presented first substantial account of the following type of data included in the file updated.

Third, this same pulse received at the input of 185 unit 12, where it comes to the counting input of the counter 180, locking in the counter unit as the fact of updating all records of the first data type in the database server.

In addition, this same pulse is delayed element 182 of the delay time counter 180 and is supplied to the clock input of the comparator 181, comparing the code number of data types in the register 123, the incoming input 184 of the block 12 with the counter 180.

If the counter 18 will be less code number of data types, presents in the register 123, the output 186 of comparator 181 pulse appears that, first, through the inlet 129 unit 9 and the elements 126-128 OR fed to the clock inputs of registers 120-122, putting them in the recording file updating another type of data from the buffer memory, and the process of updating the records of another data type in the database server will continue in this manner until, until you have updated all the records of all data types from a file updating.

The end of the process of updating the database will be fixed at the moment of appearance of the pulse at the output of the comparator 187 181 unit 12, which will reflect the fact that the code counter 180 is equal to the code number of data types in the register 123 unit 9.

This impulse is, firstly, to the input 111 block 7 passes through the element 101 OR output 118 unit 7 is supplied on the installation inputs of the reversible counter 8 and registers block 9, setting the reversible counter 8 and the registers of block 9 in the initial state.

Secondly, this same pulse output 187 of the block 12 through the inlet 132 of the block 9 is supplied on the installation log register 123 and the installation log trigger 124, returning to their original state, when the trigger 124 removes deny the potential of the input element 125 And suggesting that the process of updating the database is completed and the users of the system can now receive all the help from the database server.

Thus, the introduction of new units will significantly improve system performance by eliminating the need to search for the requested information throughout the database server.

Table
№ p/pName informationSubmission deadlineResponsible unit
l.Data on movementTwice a year, every seasonService design route network
2.Plan data about the time spent in airportsTwice a year, every seasonService design route network
3.Planning data on the carriage of passengers by segmentTwice a year, every seasonService design route network
4.Routine data on shipments of cargo and mailTwice a year, every seasonService material support
5.Navigational calculationsTwice a year, every season.Flight complex
6.Planning data on the rates at airportsEzekvartal is but The Department of Economics
7.Plan data about the cost of flightQuarterlyThe Department of Economics
8.Plan data about the cost of cateringQuarterlyThe Department of Economics
9.Planned cost data on indirect costsQuarterlyThe Department of Economics
10.Data on fuel pricesMonthlyService material support
11Data on revenue ratesEvery seasonService design route network

Sources of information

1. U.S. patent No. 0505651, MCL G 06 F 13/40, 13/38, 1992.

2. U.S. patent No. 5129083, MCL G 06 F 12/00, 15/40, 1992 (prototype).

Informational system of production and economic indicators of air containing the first register, information and clock inputs of which are the first information and the clock inputs of the system, respectively, and the output is connected to one information input unit switching data, the outputs of which are informational outputs of the group of information outputs of the system, the Torah register, information the input of which is the second information input of the system, the unit receiving the update files, data, information input which is the third information input of the system, first, second and third clock inputs of which are the second, third and fourth clock inputs of the system respectively, the first information output an information output system, and the first clock output is connected to a clock input of the second register, and a reversible counter, the information output of which is the address of the system output, and the unit direction of the viewing reference data, the first and second control inputs of which are the first and second control inputs of the system, and a third control input connected to the control output unit receiving the update file data block selection automated working place of the user information whose input is connected to one output of the second register, a clock input connected to the first clock input of the system, and information and clock outputs are connected to other information and clock inputs of the switching unit data respectively, characterized in that the system contains the block identification of the type of the requested data, information input is connected to other information the output of the second register, the clock input is connected to the first clock output unit receiving the update files of data, one data output connected to an information input section for selecting the direction of viewing reference data and clock output connected to the clock input unit direction of view reference data block identification of the type of the updated data, information input connected to the second information output unit receiving the update files, data, and clock input connected to the second clock output unit receiving the update file data, the first block of code compares, an information input connected to the third information output unit receiving the update file data, the second block comparison codes information the inlet of which is connected to the fourth information output unit receiving the update files, data, clock input is connected to one output of the first block of code compares the first output is connected to the fourth clock input unit receiving the update file data, and a second output connected to the first mounting unit receiving the update file data, and a switching unit of the synchronization signals, the information input of which is connected with the information output block type identification C is passively and updated data, respectively, the first clock input connected to the clock output unit to identify the type of the requested data, the second clock input is connected to the synchronizing output of block identification of the type of the updated data, the third and fourth clock inputs connected to respective outputs of the first block of code compares the fifth clock input is connected to the second output of the second block of code compares the first control input connected to one output unit of the direction of view of the reference data and the second control input connected to another output of the block select the direction of the viewing reference data, the first and second clock outputs are first and second clock outputs of the system, the third clock output connected to the clock input of reversible counter, the fourth clock output connected to the counting input of the reversible counter, the fifth clock output connected to the clock input of the first unit of comparison codes, the information output is connected to the information input of the reversible counter and the installation exit is connected with the installation entrance reversible counter with another installation input unit receiving the update file data, while the fifth clock input unit receiving files update is of data connected to the first output of the first unit of comparison codes the subtractive input of the reversible counter is connected with the second output unit of the direction of view of the reference data and the third output of the first block of code compares is the third synchronizing system output.



 

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2 dwg

FIELD: computer science, in particular, analytical system of governmental population register.

SUBSTANCE: system has three registers, three counters, block for selecting base reading address, block for signs identification, memory block, generator of reading signals for database, comparison block, control signals discriminator, block for detecting a tendency and prediction block.

EFFECT: higher speed of operation of system due to excluded data search for statistical analysis across whole database of population register and localization of search by means of exclusively time-based and individual signs of personal identifier.

8 dwg

FIELD: computers, in particular, system for receipt, storage and reading of data about competitive offers in governmental purchases.

SUBSTANCE: system has block for receiving applications for participation in competition, block for selection of support address of providers in database, block for identification of limiting values of number of competitions, block for modification of addresses of server database, block for identification of competition codes, block for identification of electronic digital signatures of providers, OR element, block for data receipt of server database, block for selecting number of competitions participants, block for controlling selection of applications, block for controlling reading and recording of database, block for launching competitions procedure, block for selecting addresses of applications of providers in database, block for identification of closed encryption keys, register and block for outputting confirmations to providers.

EFFECT: higher reliability of system defense against unauthorized access due to encryption of competitive applications of providers by data encryption keys.

11 dwg

FIELD: manufacture of aircraft instruments; display of flying vehicle and onboard equipment parameters.

SUBSTANCE: proposed complex includes two control onboard digital computers, port, central and starboard multi-functional color displays, collimator display on windshield and multi-functional control panel combined by multiplex information exchange channel, local all-round information exchange channel, first and second local radial information exchange channels, thus forming integral information system. Connected to this information system are system of mode parameter sensors, power supply system, generator subsystem and storage battery. Both onboard digital computers are connected by means of inter-computer information exchange channels. Proposed complex is also provided with TV image switching unit connected with multi-functional color displays for transmission of TV image.

EFFECT: enhanced operational reliability and survivability of complex.

2 cl, 1 dwg

FIELD: computer science.

SUBSTANCE: method includes performing a block of operations along N1 channels, where N1 is selected from 1 to 2256, wherein received information is separated on logically finished fragments, encoded on basis of preset algorithm, to produce a block of N-dimensional sets adequate for converted source information Aj with elements like {Bm, X1, X2,...,Xn}, where j - order number of set in range from 1 to 2256, Bm - identifier, X1-Xn - coordinate of element from its coordinates center, m and n are selected from 1 to 2256; received block of sets is compared to already accumulated and/or newly produced sets from multiple channels, intersecting portions of sets are found and cut out; after that cut intersections and sets remaining after cutting are distributed among databases, placing each same set into database appropriate for it and each of sets different with some parameter to databases appropriate for them and identifiers of databases storing these sets are substituted in place of cut sets.

EFFECT: higher speed of operation, higher precision, lower costs, broader functional capabilities, higher efficiency.

9 dwg

FIELD: electronic engineering.

SUBSTANCE: for each channel device has digital signal converter, block for setting conversion digitization frequency, conversion level adjustment block, block for transferring electric signals to physical values, block for observing converted signals, block of precision of signal conversion, block of signal conversion time, block for disabling unused channels, block for synchronization of analog signals, visualization block, converted signal recording block. Device allows to convert signals of different levels, to change digitization frequency and conversion time, to disable unused channels, transfer sensors signals to physical values with consideration of sensors scales, observe signals at different scales, appropriate to levels of converted signals, to measure precision of recording of converted signals.

EFFECT: higher efficiency.

5 dwg

FIELD: computers.

SUBSTANCE: device has base address selector, registers, delay elements, elements of OR groups, OR elements, memory block, reverse counter, comparator.

EFFECT: higher speed of operation.

3 dwg

FIELD: measuring technologies.

SUBSTANCE: method includes setting tolerance for controlled parameter, measuring physical value, associated with said controlled parameter, with numeric characteristic of its value, then measured value is compared to its tolerated values (tolerances for controlled parameter), and decision concerning level of match of measurement results to tolerances for parameter is taken, when determining tolerance for controlled parameter an affiliation function is set for phrase "parameter on basis of measurements in tolerance", and during taking of decision trustworthiness of phrase is evaluated, expressed in non-precise measure, as value of affiliation function, matching value of measured parameter.

EFFECT: higher trustworthiness.

2 dwg

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

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

FIELD: engineering of automated libraries for data storage with loading, unloading and movement of data carriers.

SUBSTANCE: library contains robotized transporting device, for moving data carriers, and multiple universal sockets with means for connecting accumulators positioned in sockets or other devices to transporting device, to which commands from main computer are sent for moving data carriers. Robotized device is programmed for recognition, whether each socket is free or occupied with a certain component, such as an accumulator or command port, and following realization of appropriate communication with component occupying the socket.

EFFECT: decreased hardware costs with adjustable configuration and use of different system components.

6 cl, 5 dwg

FIELD: computer science, in particular, automated identification of data of voting sheets of voters in national automatic system "Elections".

SUBSTANCE: system contains block for receiving data from voting sheets, block for receiving records of server database, block for setting type of signatures, block for selecting supporting addresses of server database, counter of signatures number, comparators, blocks for selecting supporting addresses of signature types, blocks for modification of addresses for recording and reading signatures, block for selecting types of signatures, block for selecting number of checked signatures of voters and block for forming signals for recording and reading signatures of voters.

EFFECT: increased speed of operations due to localization of addresses of documentary data of civilians in database of system by identifiers of their surname, name and patronymic.

12 dwg

FIELD: radio engineering, possible use as mobile communication system for realizing contact with a celebrity in form of a game.

SUBSTANCE: system contains at least two receiving-transmitting personal devices, local control device, and central control device. At least one additional transmitting-receiving device of a celebrity is provided. Receiving-transmitting personal devices are made in form of mobile communication terminals of users, local control device - in form of station of mobile cell phone communications operator, and central control device - in form of a server.

EFFECT: increased efficiency, realized game effect during making of contacts.

6 cl, 3 dwg, 2 tbl

FIELD: computer science, in particular, engineering of internet-banking system for information-marketing electronic trading center.

SUBSTANCE: system contains user identification block, block for identification of user requests, block for selecting bearing addresses of information-marketing center database, block for selection of user workplace addresses, register, block for selection of transaction addresses, block for selecting addresses of payments, block for forming signals for recording and reading for database, data dispensing block, block for identification of transactions, block for receiving dialogue messages, block for providing notifications to suppliers, block for providing notifications to buyers.

EFFECT: increased reliability of financial payments by excluding possible receipt of payment by goods supplier before warehouse of buyer receives goods.

13 dwg

FIELD: computer science, in particular, engineering of system for controlling selection and processing of governmental population register data.

SUBSTANCE: system contains registers, address selectors, adders, counters, data receipt block, block for generating temporal strobes, comparator, decoder, block for predicting quantities, data dispensing block, OR element and delay elements.

EFFECT: increased speed of operation of system due to localization of search only by supporting addresses of database of Russian Federation subjects.

10 dwg, 2 tbl

FIELD: computer science, in particular, automated system of state population register.

SUBSTANCE: system contains first and second registers, block for selecting base address of records, block for forming current address of records, selector of recording and reading modes, control block, counter, first and second comparators, data commutation block.

EFFECT: increased speed of operation of system by localization of addresses of database recording by typical identity identifiers.

6 dwg

FIELD: engineering of information processing systems.

SUBSTANCE: system contains master-system for processing information, interface, central communication device, client system for processing information, object model. In accordance to method each master system sends to central communication device elements of its data array determined in appropriate master-representation, while in master-representation of connected master system elements of data array are contained, for which system has data priority.

EFFECT: simplified specification and development of interfaces between technical applications.

2 cl, 6 dwg

FIELD: computer science, in particular, system for inputting, storing, ordering and extracting information from information base of information-marketing center.

SUBSTANCE: subsystem has first, second and third registers, device for selecting data catalogue addresses, device for selecting data sub-catalogue addresses, adder, adding and subtracting counters, device for selecting length of data sub-catalogues, device for selecting temporal cycles, comparator and data receipt block.

EFFECT: increased speed of operation of subsystem by excluding data search across whole database of information base and localization of search only by supporting addresses of catalogues and sub-catalogues of services and goods.

6 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

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