Automated system for controlling registration and boarding of passengers

FIELD: technology for automated control of registration and boarding of passengers.

SUBSTANCE: system contains block fro receiving ticket sales data, first and second identification blocks for base address of flight, register, block for setting flight identifiers, counter, comparator, block for forming database addresses, block for identification of passenger ticket, block for receiving ticket data, block for receiving records of database, block for identification of documental data of passenger, block for receipt of documental data and block for identification of passenger identity.

EFFECT: increased reliability of control, by means of automatic identification of ticket data, of documental data of passenger and his identity.

7 dwg

 

The invention relates to the field of computer technology, in particular to the automated control system of the check-in and boarding of passengers.

The current situation associated with the increase of technogenic threats and terrorist acts, impose additional requirements on the safety operation of passenger transport and safety of passenger traffic.

The key point in ensuring the safety of passenger transportation systems are ticket sales, registration, flights and boarding control. Upgrade and/or implementation of subsystems of control in these systems will allow you to take operational decisions with the threat, and collect and use information about individuals who represent a threat in the Central storage territorial information systems.

A promising direction for solving problems of development of the infrastructure of passenger transport and ensuring transport safety is improved ticketing and registration systems flights to improve the ease of acquisition of the population, but also in terms of ensuring the safety of passenger transport.

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

The first known system is eat 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 and other system containing blocks of data, information inputs which are connected with the blocks receive data and control outputs connected to the first group of blocks of memory, Central processor, the inputs of which are connected to the outputs of the memory blocks of the first group and block data, and outputs connected to inputs of memory blocks of the second group and block data display [2].

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

Its disadvantage is the low reliability of the control register, due to the fact that execution of the control procedure of the personalities of the people who buy tickets for travel on passenger transport, is implemented by visual examination of the data of the ticket and passport data, which inevitably leads to the fact that on Board passenger Tran what port it is possible to plant unwanted passengers, referred to the risk.

The purpose of the invention is to enhance reliability of the control system of registration of passengers through the implementation of procedures for automatic identification data of the ticket, documentary data of the passenger and his personality.

This objective is achieved in that in the known system, containing a block of data reception ticket sales, information and clock inputs of which are the first information and the clock inputs of the system, and the first information output an information output system, the unit receiving the ticket data, information and clock inputs of which are the second information and the clock inputs of the system, the reception unit records data and clock inputs of which are the third information and the clock inputs of the system, the unit of the data reception scanning and recognition of documents of the passenger information and the clock inputs of which are the fourth information and the clock inputs of the system, the shaping unit address data output of which is the address of the system output and the clock output is the first clock output system, the unit specify the IDs of the flight and the case entered the first block identification databases is the first address of the voyage, an information input connected to another output block data reception ticket sales, the first and second clock inputs connected to first and second clock outputs block data reception ticket sales, respectively, one data output connected to the first information input processing unit address database, other information output is connected to the information input of the register, and the first clock output is connected to the first clock input of the processing unit address database and to the clock input of the register, the identification block of the passenger ticket, one data input connected to the output of the block specify the IDs of the flight, another information input connected to the first output block data reception ticket, installation input is connected to the third clock input system clock input is connected to the second clock input system, the first and second control outputs connected to first and second control inputs of the processing unit address database, and the signal output is the first signal output system, the second identification block base address of the voyage, one data input connected to the output of the block specify the IDs of the flight, another information input connected to the second output unit of the data reception ticket and the clock input is connected to the synchronizing output of block identification of the passenger ticket, the data output is connected to the second information input processing unit address database, and the clock input is connected to the second clock input of the processing unit address database, the identification block of documentary data, one data input of which is connected to the third information output unit of the data reception ticket, another information input connected to the first output unit receive database records, the clock input is connected to the third clock input system, and one output is the second signal output of the system, the unit identity of the passenger, one information input connected to another information output unit receive database records, other information input connected to the output unit receiving data of the documents of the passenger, and the clock input is connected to another output of block identification of documentary evidence, with one output of block identification of the passenger is the third signal system output and the other output is a control system output, a comparator, an information input connected to the output register clock input is connected to each the mu synchronization output of the first identification block base address of the voyage, the first output is the second clock output unit and is connected to the third clock input of the processing unit address database, and a second output connected to the installation by the input processing unit address database and installation input unit receiving data to sell tickets and register, and the counter, the counting input of which is connected to the first comparator output and the installation input is connected with the second comparator output.

The invention is illustrated by drawings, where figure 1 shows the block diagram of the device, figure 2 is a structural block circuit diagram of a data reception ticket sales, figure 3 - structural diagram of the first identification block base address of flight figure 4 - structural diagram of the second identification block base address flight, figure 5 - block diagram of the address generation database figure 6 - block diagram of the identification block of the passenger ticket, 7 - structural diagram of block identification of documentary evidence of the passenger.

The system (figure 1) contains the block 1 data reception ticket sales, the first 2 and second 3 blocks identify the base address of the voyage, register 4, block 5 specify the IDs of the flight, the counter 6, a comparator 7, block 8 address generation database, block 9 identification of the passenger ticket, block 10, data acquisition card, block 11 receive database records the data, unit 12 identification of documentary evidence of the passenger unit 13 admission of documentary evidence and the block 14 identification of the passenger.

Figure 1 also shows the first 20, second 21, the third 22 and fourth 23 information input system, the first 24 and second 25, the third 26 and fourth 27 clock inputs of the system, as well as information 30 and the address 31 the system outputs, the first 32 and second 33 synchronizing the system outputs, the first 34 and second 35 and third signal 36 and 37 managing system outputs.

Unit 1 (2) data reception ticket sales contains the register 40, the trigger 41, the elements 42, 43 And the element 44 delay. The drawing shows the input information 20, the clock 24 and installation 19 inputs, as well as the first 15 and second 16 information outputs, the first 17 and second 18 clock outputs.

The first block 2 (figure 3) identify the base address of flights contains the block 50 memory made in the form of a persistent storage device, the decoder 51, the first 52 and second 53 and 54 third elements And element 55 OR the first 56 and second 57 elements of the delay. The drawing shows information 60 and the clock 61, 62 inputs, as well as information 63, 64 and clock 65, 66 outputs.

The second block 3 (figure 4) identify the base address of flights contains the memory block 70, made in the form of a persistent storage device, the decoder 71, amator 72, the first 73, 74 second and third 75 elements And the first 76 and 77 second delay elements. The drawing shows information 80, 81 and clock 82 inputs, as well as information 83 and the clock 84 outputs.

Block 5 (figure 1) specify the IDs of the flight is made in the form of the register.

Unit 8 (figure 5) address generation database contains a counter 90, a group of elements 91, 92 And a group of 93 elements OR element 94 OR element 95 And the elements 96, 97 delay. The drawing shows the first 99 100 and the second clock, control 101, 102 and information 103, 104 inputs, the third clock 105 and 106 installation inputs, as well as information 31 and the clock 32 outputs.

Block 9 (6) identification of the passenger ticket includes a comparator 110, a trigger element 111 and 112 delays. The drawing shows information 113, 114, clock 115 and 116 installation inputs and clock 117, control 118, 119 and the signal 120 exits.

Block 10 (Fig 1) data reception ticket is made in the form of the register, with information 21 and the clock 25 inputs, as well as information 133-135 outputs.

Block 11 (1) receiving database entries made in the register with information 22 and the synchronizing 26 inputs, as well as information 136-137 outputs.

Block 12 (7) identification of documentary evidence of a passenger includes a comparator 121 is element 122 delays. The drawing shows information 123-124 and clock 125 inputs the signal 126 and the clock 127 outputs.

Block 13 (1) receiving the document data of the passenger after scanning and recognition is made in the form of the register, with information 23 and the clock 27 inputs, and information output.

Block 14 (1) identification of the passenger in the form of comparator having information 129-130 and clock 128 inputs and signal 36 and 37 managing exits.

All nodes and elements of the system are made on the standard of potentially switching elements.

The system works as follows.

After completion of the sale of tickets for the flight automated ticketing system, for example, the system Sirena-3 passes in the automated control system of the check-in and boarding of passengers files affected flights with copies of these tickets issued on the respective passengers, documentary data are also contained in the ticket.

Codogram file data input system 20 has the following structure:

CODECODECODECODE
The date and flight numberRoomsSurname, Name, Patronymic and other the attributes of documentary records, identifying the identity of the passengerThe image of the identity of the passenger as a result of scanning his photographic cards

The first record of codogram file input system 20 is supplied to the information input of the register 40 of block 1, which is inserted synchronizing pulse from the input 24 of the system.

Output 15 of block 1 all codogram available at the output 30 of the system, and the code combination corresponding to the date and flight number, the output 16 of the register 40 unit 1 is supplied to the information input 60 of unit 2, where it is issued to the input of the decoders 51.

The decoder 51 decodes code combination and prepares a circuit to the signal input 61, opening one of the elements 52-54 And. For definiteness, suppose that a high potential is received at one input element 52 I.

In parallel with this process the sync pulse from the input 24 of the system is supplied to one inputs of the elements 42, 43 I.

However, open on the second entrance will be only element 43 And since the other input submitted high potential with inverted output of the trigger 41, which is in the initial state. The clock pulse input 24 system passes the element 43 And the block 1, and then is delayed by element 44 at the time of entry of codogram in the register 40 and the operation of the decoder 51 block 2 and with the output element 44, firstly,is fed to a single input trigger 41, setting it in one state, in which the element 43 will be closed and the element 42 will be opened.

Secondly, this same pulse from the output of the element 44 and forth from the output 18 of block 1 is fed to the input 61 of the block 2, which polls the state of the elements 52-54 I.

Given the fact that open on one input will be only element 52 And, through this item, the sync pulse is fed to the input of the read fixed memory permanent storage device 50 that stores code reference address database of flights and seats contained on the aircraft performing the flight.

Structure codogram stored in the fixed memory ROM has the following form:

CODECODE
Reference address database of flightThe number of seats on Board the aircraft

Code reference address database of flight from the block memory 50 is read to the output 63 and enters through the inlet 97 unit 8, the elements 91 And group elements 93 OR group on the information input of the counter 90, and the code number of seats is read on the output 64 and enters the information input of the register 4.

In parallel with the described process, the same pulse is read from the input 61 of the block 2 zaderzhivaet the delay element 56 at the time of reading the contents of a fixed ROM cell 50 is element 55 OR and then exit 65 arrives at the input 99 of the block 8 and then through the element 94 to the clock input of the counter 90, and the clock input of the register 4, locking them with the appropriate read codes. Address code from the output of the counter 90 is issued for the address output 31 of the system.

Simultaneously with entering code reference address database of flight in the counter 90 is the same clock pulse from the output element 55 OR block 2 is delayed by element 57 at the time of entering code in the register 4 and then through the outlet 66 of the block 2 is issued to the sync input of the comparator 7.

For informational inputs of the comparator 7 are served code number of seats from the output of the register 4 and the code number of input records to the output of the counter 6. Given that this point in time count 6 was in the original state, then his testimony is equal to zero.

On the clock signal of the comparator 7 compares the input codes and because the code value at the output of the register 4 more counter 6, the output 139 of the comparator 7 a signal, which, firstly, available at the output 33 of the system and then fed to the input of the first interrupt server database.

On this signal, the server goes to the subroutine write the contents of register 1 output 30 of the system as indicated on the output 31 of the address.

Secondly, the output 139 of the comparator 7, the signal is fed to the counting input of the counter 7 and commits the fact of the first data record from the input file, and the third is, the same signal through the input unit 105 8 is fed to the input element 97, where it is delayed by the time of writing data to the database server, and then fed to the counting input of the counter 90, increasing the base address of record by one.

With the advent of the second capture file to the input 20 of the system she synchronizing pulse input 24 similarly recorded in the register 40. However, unlike the first record, the clock pulse passes now not through the element 43, And through the element 42 And outdoor high potential with direct output of the trigger 41.

From the output 17 of block 1 this clock pulse passes to the input 62 of the block 2 and then through the element 55 OR, first, available at the output 65 of the block 2. However, the transmission circuit of this pulse will be blocked element 95 And at the input 99 of the block 8.

Secondly, after a delay element 57 this pulse from the output 66 of the block 2 is again sent to the clock input of the comparator 7, which again compares the codes of the register 4 and the counter 6, and since the counter 6 remain less evidence of register 4, the output 139 of the newly formed signal at the output 33 of the system.

On this signal, the server returns to the routine of recording a new record file from the output 30 of the system as indicated on the output 31 of the address.

Describes the process of recording in the database of the flight records of the input file cont which is as long until the comparator 7 will not fix the fact of the equality of the input code signal is sent to the output 140, which indicates completion of the write to the database of flight information on passengers who bought tickets on that flight.

The output 140 of comparator 7, firstly, to the input 106 of the block 8 and then enters the installation of the meter inlet 90, resetting it to its original state.

Secondly, the same signal is sent to the installation inputs of the counter 6, the register 4 and block 1, also setting their original state.

From this point in time, the system control check-in and boarding passengers are ready for check-in and boarding of passengers on that flight.

With this purpose in block 5 specify the IDs of the flight are the number and date of flight, which is from the output of the unit 5 is fed to the input 80 of the block 3 and to the input 113 of the block 9.

Input 80 unit 3 codes date and flight number is fed to the input of the decoder 71, which decodes the input code combination and prepares a circuit to the signal input 82, opening one of the items 73-75 And. For definiteness, suppose that a high potential is received at one input element 75 I.

The same code combination from the output unit 5 is fed to the input 113 of the block 9, and then supplied to one input of the comparator 110, the other input 114 which receives the code to the combination of the date and flight number, read from the ticket presented by the passenger at check-in.

When a ticket its parameters are automatically read by the reader (not shown) in the information input 21 of the block 10, is made in the form of the register, where they are recorded clock pulse input 25 of the system.

Structure read codogram indicators ticket has the following form:

CODECODECODE
The date and flight numberRoomAttributes documentary data passenger

On the clock pulse input 25 of the system, arriving at the clock input 115 unit 9, where it is delayed by element 112 at the time of entering the code in the block 10 and then supplied to the clock input of the comparator 110, the latter compares the input codes, and if the date and flight number specified in the passenger's ticket, coincide with the date and flight number register, the output 117 of the comparator 110 a signal, which, firstly, is fed to a single input trigger 111 and sets it in one state, in which high enabling potential will be issued at the output 118.

With this output the high potential is supplied to the input 102 of the block 8, which opens on one input elements 2 And group.

Secondly, the output signal 117 of the comparator 110 is fed to the input 82 of unit 3, where it passes on the status of items 73 - 75 I.

Given the fact that open on one input will be only element 75 And then passing this element And the sync pulse is fed to the input of the read fixed memory permanent storage device 70, which stores code reference address database of flight and reads it to one input of the adder 72 or other information whose input is from the output 134 of the unit 10 through the inlet 81 a code space of the passenger.

The clock pulse from the input 82 of the block 3 is delayed by element 76 at the time of reading data from the ROM 70 and is supplied to the clock input of the adder, which is the base address of this flight adds seat number of the passenger, thereby forming the data read address of the passenger from the database of flight through the output 83 is issued to the input 104 of the block 8, and then passes through the elements 92 And group elements 93 OR group on the information input of the counter 90.

Simultaneously, the clock pulse from the output element 76 delay additionally delayed element 77 at the time of actuation of the adder 72 and the output 84 unit 3 is fed to the input 100 of the block 8, where the element 94 and is supplied to the clock input of the counter 90, bringing in his address to read the data from the database of passengers.

In addition, this same pulse is delayed by element 96 at the time of actuation of the counter 90 and the output 32 of the system is given to the input of the second channel interrupt server database. On this signal the database server goes to the routine of reading the data of the passenger from the database at the address set on the address output 31 of the system, and issue them to the information input unit 22 11, where they are recorded clock pulse input 26 of the system.

Structure codogram read data of the passenger has the following form:

CODECODE
Attributes documentary data passengerPhotography passenger

Output 136 of block 11 attributes documentary passenger data is fed to the input 124 of the block 12, where they are served on one of the information input of the comparator 121, the other information 123 which input from the output 135 of the block 10 receives the attributes of documentary evidence of the passenger specified in the ticket.

On the clock pulse input 26 of the system, arriving at the clock input 125 unit 12, where it is delayed by element 122 at the time of enrollment code records in the block 11, the comparator 121 compares the attributes of documentary evidence of the ticket and the entry in the database.

If the attributes of documentary data b is summer and the attributes of the database records will be the same, the comparator 121 at the output 127 generates the clock signal received at clock input 138 of block 14, the information inputs which to this point in time with the output 136 of the block 11 is given a picture of the passenger received from the database system, and the output unit 13 a picture of the passenger resulting from scanning and recognition of the presented document.

If the images are photos of the passenger are the same, then the output 132 of the block 14, a signal is generated that allows the passage of passengers to Board.

If the image submitted photos will be different from each other, the output 131 of the block 14 will receive the signal at the output 36 of the mismatch graphic images of passengers, producing a ticket when you register and bought it at the box office ticket sales.

If the unit 12 detects the mismatch of documentary evidence of the person who bought the ticket, and persons present it at registration, the signal blocking this passenger will be issued with the output 126 of the block 12 to the output 35 of the system.

If the block 9 will detect the discrepancy between the number and date of the flight in the presented ticket number and date of the flight, recorded in the record at the sale of the ticket, the output 120 of the block 9 will be also issued to the signal block of a passenger on the output 34 of the system.

Thus, the introduction of new nodes, the blocks will significantly improve the reliability of the control system by implementing procedures for automatic identification data of the ticket, documentary data of the passenger and his personality.

Sources of information

1. U.S. patent No. 5136708, MCL G 06 F 15/16, 1992.

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

Automated control system of the check-in and boarding of passengers, containing a block of data reception ticket sales, information and clock inputs of which are the first information and the clock inputs of the system, and the first information output an information output system, the unit of reception data of the ticket information and the clock inputs of which are the second information and the clock inputs of the system, the reception unit records data and clock inputs of which are the third information and the clock inputs of the system, block reception of documentary data, information and clock inputs of which are the fourth information and the clock inputs of the system, the block address generation data output which is the address of the system output and the clock output is the first clock output system, the unit specify the IDs of the flight and the register, wherein the system contains a first identification block base address, flight information the input of which connection is replaced with other information output unit of the data reception ticket sales the first and second clock inputs connected to first and second clock outputs block data reception ticket sales, respectively, one data output connected to the first information input processing unit address database, other information output is connected to the information input of the register, and the first clock output is connected to the first clock input of the processing unit address database and to the clock input of the register, the identification block of the passenger ticket, one data input connected to the output of the block specify the IDs of the flight, another information input connected to the first information output unit of the data reception ticket, installation input is connected to the third clock input system synchronizing input connected to the second clock input system, the first and second control outputs connected to first and second control inputs of the processing unit address database, and the signal output is the first signal output system, the second identification block base address of the voyage, one data input connected to the output of the block specify the IDs of the flight, another information input is connected to the second information output unit of the data reception ticket, and to synchronise the speaker input is connected to the synchronizing output of block identification of the passenger ticket, the data output is connected to the second information input processing unit address database, and word clock output connected to the second clock input of the processing unit address database, the identification block of documentary data, one data input of which is connected to the third information output unit of the data reception ticket, another information input connected to the first output unit receive database records, the clock input is connected to the third clock input system, and one output is the second signal output of the system, the unit identity of the passenger, one data input of which is connected to another information output unit receive database records, other an information input connected to the output of block admission of documentary evidence, and the clock input is connected to another output of block identification of documentary evidence, with one output of block identification of the passenger is the third signal system output and the other output is a control system output, a comparator, an information input connected to the output register clock input is connected to another clock output of the first identification block base address of the voyage, the first output is the clock that the output of the system and is connected to the third clock input of the processing unit address database, and the second output is connected with the mounting unit address generation database and installation input unit receiving data to sell tickets and register, and the counter, the counting input of which is connected to the first comparator output setting input is connected to the second output of the comparator, and the output of the counter is connected to another information comparator input.



 

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2 cl, 1 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: 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: electric communications, possible utilization for engineering of automated technical information protection means for monitoring safety of automated systems and operative identification of family of communication protocols TCP/IP utilized by digital communication systems and, in particular, by data transfer network of Internet type.

SUBSTANCE: device has frequency splitter, receiving memory block, subtracting counter, supporting memory blocks, decoding blocks, counters, AND elements, address receipt blocks, comparison blocks, decoders, register, indication block.

EFFECT: improved trustworthiness of detection of an attack against an automated system.

2 dwg

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