RU129682U1 - AUTOMATED PASSENGER CARGO TRANSPORT SYSTEM - Google Patents

Abstract

An automated system for passenger transportation, including a module for receiving information by scanning, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, while the information input of the scanning module is designed to receive data from the output of an automated data reader, the synchronizing input of the scanning module is designed to receive synchronizing signals from the output of an automated reader, while one in the formation input of the system is the information output of the system, the scan module interacts with the input of the system identification module from the output of the scan module to the input of the data selection module of the specified parameters, and the received information after processing by the blocks and the comparator receives output that is transmitted to the output of the selection module with subsequent transferring to the module for generating user database addresses, a module for identifying reference base data addresses that are at risk, when The device has information and synchronization inputs for interacting with the data receiving module of the integrated integrated circuit, as well as synchronizing and information outputs for exchanging and transmitting requests and data, the scanning module interacts with the input of the system identification module, and information is also transmitted from the output of the scanning module to the input of the selection module data of specified parameters, while the selection module is designed to select data in an automated mode with a database server

Description

The utility model relates to computer technology, in particular to an automated control system, increasing the efficiency of the use of technical equipment specifically designed for the transport of passenger goods in crowded places (airports, railway stations, / OR). This automated system performs the operation of an automatic device with directional action to obtain a technical device to improve the quality of transportation of goods and create comfortable conditions for users (passengers).

The main goal is to improve the quality of transportation, the priority use of the common device, as well as the use and improvement of the complex of services for the transport of passenger goods in public places with subsequent modernization.

The technical result is to increase the system performance by localizing the addresses of the records of the system server database by standard identifiers.

This device can be used as an additional component to improve the elements of the transport system, and can also be used as a separate technical tool.

The bottom line is that when a passenger arrives or departs to the settlement of interest, due to the automatic device he will be able to use technical equipment intended for the carriage of goods. Within the limited boundaries of the territorial (technical) complex, building, structure / OR, allotted borders, this device (automatic cart) will be used, which will serve as an element of the passenger (s) registration process by reading information when scanning biometric data from the passenger’s passport and automated data transfer to the central database of the system server. With improvement, this technical device (trolley) allows taking into account the chosen route (schemes, floor plans) in parallel with the motion sensors and visual-audio device (video cameras) involved in the operation, use the baggage transportation automatically or remotely, eliminating obstacles and errors delivering baggage ( cargo) to the place chosen on the route. Each technical device (trolley) is equipped with a beacon designed to recognize the location of the cargo or this device itself, the application will be relevant not only at airports, train stations, but also in large companies, warehouses, shops. This process allows you to read and process the source information and transfer the system server to the database. The safety of the presence of baggage will be carried out by a specialized service, due to the video recording incoming information from the tracking object with the assignment by an automated device to each cargo, technical device, (baggage) registration number (code, code).

The technical device is received and returned by scanning the cipher (code / OR) and triggering the read signal when it acts on the lock and unlock mechanism of the lock, issuing, receiving, and simultaneously automatically turning on the reader and the visual technical device (video recorder / OR).

The receipt of the technical device is carried out by the user in the designated place where automatic accounting, fixing and their issuance are carried out. Control over the process of receiving, fixing, issuing a technical device is carried out by the installation of an automatic device. It consists of a case, right-left, upper, lower borders, has a coin and bill receiver, can work in combination with a mechanical device for issuing a drive, as well as a unit for returning and exchanging money. It mounts hardware, video registration, code scanning, cash register, sound, color identifier, as well as a data transfer unit to the main processor of the system server database, information input and output blocks, a counting unit for receiving and delivery of a technical device . On the automatic device there is a removable touch screen, a panel that is both informational in nature and provides the right to provide services to the user.

With the consent of the user and after payment, baggage (cargo) can be delivered to the designated place by the organization performing this activity. For this, it is necessary to fill in the information data that will be necessary for the implementation of the order, and wait for a short time for the employee. The process of entering data does not take much time when the user enters data, after the payment is made, a signal is transmitted to the control body or the body responsible for the provision of services, at the same time it is brought to the person responsible for accounting, registration and loading of the fixed cargo. After its appearance, the cargo (baggage) is accepted from the customer to the contractor, the basis will be a document attesting to the payment made. When using an automated system to an automatic device with an additional user request, covers, bags, packages / OR are issued.

The most important decision to comply with the control and operation of technical devices is to constantly replenish the designated places for their accumulation or return; for this purpose, favorable conditions for user interest with a technical solution are created. In the event of the return of the specified technical equipment, the user is given the opportunity to receive a certain monetary equivalent or a cumulative card (OR) can be used, which can be used to perform an additional service, such as traveling by taxi, electric train in another vehicle or making a phone call.

With internal movement, use within the boundaries of action on the technical device (trolley), there may be an electronic device in the form of a removable monitor (display) and sound information block. At the request of the user, you can look at the scoreboard (screen) map (scheme) of the complex or premises, route selection, busy waiting rooms, time, air temperature, taxi numbers, hotel complexes, total luggage weight, information data, find out the flight number or get additional information about the location and condition of passenger cargo. Monitoring of the state of passenger cargo is carried out by linking the telephone number with the automated system and entering the cargo barcode with data transfer to the system database server, where, at the user's request, by transmitting data through the phone as a message, he can learn about the stages of transportation and delivery of your cargo. Make-up of the removable monitor and electronic components is done by the battery (OR).

The automated system on the device allows you to provide the user with a certain amount of memory, a convenient interface for its maintenance. Due to the long term of use, this device must be active and constantly perform automatic updates, the fact of updating information due to entering the database system via the Internet may also be provided. In addition to the built-in memory, the device has a convenient interface that allows you to freely perform the above actions, also in parallel with this, work is underway to exchange encoded data with an automatic device.

Delivery of passenger cargo is carried out by employees or the organization involved in the provision of this service, if agreed directly with the user through an automatic order, (OR). This process can also be used by the user through the public Internet by ordering the delivery and storage of goods (baggage), before departure, arrival (OR), the user, as well as in cases provided for by the legislation of the Russian Federation.

The person responsible for the transport is responsible for the safety of the contents, provided that all formal and informal features are complied with and the consent of the customer is given. The safety of the contents during delivery or transportation, disaggregated by category of importance, significance, is carried out by assigning the baggage (cargo) a bar code (encoding (NUMBERS, LETTERS, / OR)), which will also be read out upon request (necessary) from an automated control and distribution device system server database.

Each bar code (of the encoding result) will be entered into the registry of the system server database, where not only the baggage (cargo) is archived and stored, but the time, date, place of delivery and receipt (OR), as well as information about the user (received ), along with the entry in the registry, identification with the risk group is carried out. When the presented processed information is comparable (identity, similarity) with a risk group, a sound signal is triggered, information is displayed on a special display, data identification is displayed and “DANGER” lights up in red, after which the special services take actions in accordance with the applicable instructions for the detention or neutralization of dangerous persons or cargo.

After the information about the user and baggage (coding) is completed and reviewed positively, the delivery process is carried out taking into account the priority requirements of the user or centrally. All cases can be agreed upon in advance when concluding contractual relations between interested parties.

Of great importance at present is given to improving the living conditions, safety and transportation of disabled persons (disabled people). This device allows you to transform a technical device (trolley) into a means of transportation and delivery of citizens (see. Fig.), While there are separate devices that are stored in a designated place in a case on a technical device. These devices (lining) are designed to create comfortable conditions, softness when moving. They are mounted on the technical device (trolley) in the main part, where you need to sit down, the armrests are installed in the right and left border (part) and behind the forearm (human collar zone).

Due to the workload of waiting rooms, airports, train stations, etc., equipped seats are not enough in large air transport companies, this technical device allows not only delivery, movement, but can also be used as a means of relaxation or time spent.

In the process of improvement and the creation of this development, favorable conditions will be created between passengers and employees involved in transportation, as well as the risk of chaotic, uncontrolled, use of passenger cargo is reduced, and this device can subsequently be used in foreign countries.

The introduction of this device will significantly increase the importance and authority in providing this type of activity of services at the state level.

Known systems that could be used to solve the problem (1,2).

The first of the known systems contains the first and second system units, comprising central processor units, the first unified workplaces connected to the data reception and storage units, the search and selection unit, connected to the data storage and display units, the synchronizing inputs of which are connected with the outputs of the control module, local area network, communications equipment and data communications (1).

A significant drawback of this system is its structural complexity.

Another system is known that contains a data input unit, a significance vector generation unit, a system configuration formalization unit, an input distribution matrix generation unit, which is connected to the outputs of the data processing units, and the outputs are connected to the input of the output unit (2).

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

Its disadvantage is its low reliability, high-quality fakes are possible, and the disadvantages that will appear during the implementation process.

The object of the invention is achieved by the fact that the system contains an automated system for passenger transportation is achieved by the fact that the system contains a module for receiving information by scanning information and synchronizing inputs of which are the first information and synchronizing inputs of the system, while the information input of the scanning module is designed to receive data from the output of an automated data reader, the synchronization input of the scan module is designed to be received with synchronizing signals from the output of the automated reader, while one information input of the system is the information output of the system, the scan module interacts with the input of the system identification module from the output of the scan module to the input of the data selection module of the specified parameters, and the received information after processing by the blocks and comparators receives data that is transmitted to the output of the selection module with subsequent transmission to the user database address generation module d, the identification module of the reference base data addresses that are at risk, when interacting with the data receiving module of the integrated integrated circuit of the device, has information and synchronization inputs, as well as for exchanging and transmitting requests and data, the synchronization and information outputs, the information identification module, the transmission process and exchange of information allows you to more closely connect in the process of data integration to analyze the state of criticality and choice when transmitting data to the identification module parameters, the scanning module interacts with the input of the system identification module, information is also transmitted from the output of the scanning module to the input of the data selection module of the specified parameters, while the selection module is designed to select data in an automated mode with the system database server, and the information received after processing by blocks and the comparator receives at the output the data is transmitted to the output of the selection module with subsequent transfer to the database address generation module users, the address generation module that is at risk are read from the system server database and connected to the synchronizing output of the selection module of the base address of data records of a given degree of risk group in the system server database, the information output of the system server database database read address generation module is the first address the system output intended for issuing the read addresses of the server database, and the synchronizing output of the module for generating the read addresses of the database system faith is a synchronizing output of the system intended for issuing control signals to the input of the first channel of the database server interrupt, characterized in that the system contains a module of reference base data addresses that are at risk, the information input of which is connected to the second information output of the base address selection module data records to the system server database, and the synchronizing input of the identification module of the reference base data addresses that are at risk of identifying data of those at risk is connected to the synchronizing output of the module for selecting the base addresses of data records for the system server database, and the module for archiving the information that has been processed, the module for selecting the base addresses for data records for the system server database, one information input of which is connected to the third information output of the identification module included in the risk group and the permission module for signal transmission from the system server database, another information input of the base address selection module If the system server database data is connected to the first information output of the system server database record receiving module, the synchronizing input of the selection module for typical records of incoming information is connected to the second system synchronizing input, while the first output of the data selection module of the specified base addresses of the data records of the system server database data is the first clock input of the module for generating addresses for reading the database of the server of the system, and the second output of the module for selecting data of typical records of received inform connected to the counting input of the integration module, decryption of signals, codes, ciphers of data reading records and identification module included in the risk group, the identification module of reference basic data addresses that are at risk, when interacting with the data receiving module of the integrated integrated circuit of the device has information and synchronizing inputs, as well as for exchanging and transmitting requests and data; synchronizing and information outputs, data identification module, the process of transmitting and exchanging information by allows you to more closely connect in the process of data integration to analyze the criticality and choice states, when transmitting data to the parameter identification module, the information and synchronization inputs of the module are information and synchronization inputs to the systems, while the information input is designed to receive data from the output of an automated device, while the first synchronizing output of the identification module included in the risk group and its presence is connected to the second clock input of the hell generation module readings of the system server database, and the integration module, decryption of signals, data read records, one information input of which is connected to the second information output of the system server database records reception module, the other information input of the processing module, identification, encoding and transmission of fixed information one information the input of which is connected to the second information output of the system server database record receiving module, another information input of the processing, identification module, which recording and transmitting fixed information is connected to the information output of the identification module of the reference base data addresses that are at risk, one synchronizing input is connected to the information output of the data identification module of the reader, the information and synchronization inputs of which are information and synchronization inputs to the systems, module information input is intended for receiving data from the output of the database record receiving module from the server of the system module input For archiving received information, it is intended for receiving synchronizing signals from the output of the automated device of the scanning module, the first and second being information outputs, and transmitting to the input of the integration module, decoding signals, codes, ciphers of data reading records, which is connected to the second output of the module selection of typical records of incoming information, another synchronizing input of the integration module, decryption of signals, codes, ciphers of read records connected to the second synchronizing output of the identification module of the reference base data addresses that are at risk, and the information output of the integration module, decoding signals, codes, ciphers of data reading records with the transmission of processed data is the information output of the system designed to transmit data to a display, screen, the board may be with sound on the main, received and used device.

The system contains a module 1 for scanning an automatic device, a module 2 for generating addresses that are at risk, a module 3 for selecting base addresses of data records in a system server database, a module 4 for identifying reference base addresses for data that are at risk, an identification module 5 for risk group, module 6 for processing, identifying, encoding and transmitting fixed information, module 7 for identifying data from a reader, module 8 for receiving database records from a system server, module 9 tion of typical records of received information, module 10 for modifying data recording and reading addresses, module 11 for transmitting a signal from the system server database, module 12 for archiving received processing information, module 13 for integrating, decoding signals, codes, ciphers for data reading records with transmission processed data on the display, screen, scoreboard, can be with sound on the main, received and used device.

In diagram 1, the first 1, second 2, third 3, fourth 5, fifth 7, sixth 8 information inputs of the system are shown, the first 2, second 4, third 6, synchronizing system inputs, as well as the first 10, second 11, third 14 information , and the first 9, second 12, third 13 synchronizing outputs of the system.

Shown in (figure 2) module 1 contains, the counter 31, the elements of the first 21, second 22, third 23, register 10, decoder 20, permanent storage device 30, a delay element first 26, second 27, information inputs first 1, synchronizing 2 , and 41 address inputs, as well as the first 27, second 48.1, third 23 information, 29 address outputs, synchronizing 26 system outputs.

Shown in (Fig. 3), module 2 contains, a decoder 60, a counter 80, elements 41, 42, 43, 44, a delay element, the first 28, the second 29, the comparator 60.1 in the drawing, the first 30 address, the second 24 information, the third 25 synchronization system inputs, as well as informational first 33, second 32, third 48.1, synchronizing 32.1 system outputs.

Shown in (figure 4) module 3 contains, register 90, counter 81, comparator 60.2, read element 45, delay element 30, the drawing shows the first 50, second 31, third 28 information, 54 address and synchronizing 51 inputs, and information outputs first 53, second 91, third 37, synchronizing 52.

Shown in (Fig. 5), module 4 contains, a counter 82, a readout element 46, a comparator 60.3, a delay element 31 in the drawing the inputs of the address 36, information 34, and synchronizing first 35, second 38, third 39, and information first are shown 40, second 10, address 92 and synchronizing the first 9, second 92.1 system exits.

Shown in (Fig. 6), module 5 contains, a comparator 75, a read element 46, a delay element 32, the drawing shows the information system inputs 42, address 46, synchronizing the first 45, as well as information first 48.1, second 11, third 49 address first 91, second 92, third 92.1 synchronizing 48 outputs.

Shown in (Fig. 7) module 6 contains, register 50.3, calculation elements 10.2, 20.2, 40.2, decoder 50.2, comparator 75.1, the drawing shows the first 60, second 61 information, address 60.1 and synchronizing 58 system inputs, as well as the first 54, second 63, third 77 information, address 60.1, as well as the first 54, second 63, third 77, address 62 synchronizing the first 64, second 39, third 12 outputs.

Shown in (Fig. 8) module 7 contains, a decoder 50.3, counter 83, elements 47, 48, 49 in the drawing the first input 45.1 is shown, the second 5 is informational, address 66, synchronizing the first 4, as well as the first 57, second 65, third 43 information, address 57.1, synchronizing the first 44, second 55 outputs.

Shown in (Fig. 9) module 8 contains, a decoder 50.1, elements 10.1, 20.1, 30.1, 40.1, a register 50.2, where the drawing shows the first 7, second 8, third 73 information and synchronization 6 inputs, as well as information first 69, the second 72, the third 83, synchronizing 71 outputs.

Shown in (Fig. 10), module 9 contains a decoder 50.6, register 50.7, comparator 75.2, elements 10.4, 20.4, 30.4, 40.5, the delay element is the first 34, the second 35 in the drawing shows the first 68, the second 74.1 information and 70 synchronization input, and also informational first 76, second 87, third 54, fourth 83, fifth 67 and synchronizing the first 75, second 78 output.

Shown in (11) module 10 contains, the controller 70.5, a delay element 36, the drawing shows the first 83 information, address 97 input, as well as information first 84, address 85 and synchronizing 86 outputs.

Shown in (Fig. 12) of module 11/12, it contains a register, a decoder, a counter, elements, a permanent storage device, a calculating element, an adder, a comparator, a delay element 37, 38, 39; the first 91, the second 87, the third are shown in the drawing 85, fourth 79, fifth 54.1 address first 90, second 88 and synchronizing first 80, second 89, third 86 inputs, as well as first 93, second 92 information, address 94.1, synchronizing first 94, second 93.1 outputs.

Shown in (Fig. 13), module 13 contains assembly elements 120, a reading element (S1), discharge and comparability elements S1, S1, S2, S2, S2, comparator 50.5, delay elements 40, 41, the first 93.1 is shown in the drawing, second 95, third 94.1, fourth 96 information, synchronizing the first 94 inputs, as well as the first 97 information, address 14, synchronizing 13 outputs. All components and assemblies, including elements, are made on the basis of impulse element standards.

Information is entered in encoded form, which allows more efficient use of user memory.

Data on passenger cargo, an electronic passport (technical device) is scanned by a scanning device (video fixing element) and a microchip interrogation device.

Reception of information by scanning the input 2 of the system receives a codogram having the following structure:

THE CODE THE CODE THE CODE THE CODE THE CODE PASSPORT CARGO THOSE. AND ELECTRONIC ELEMENTS ATTRIBUTES AND IDENTIFICATION OF DATA WITH THE DATABASE REGISTER IDENTIFIER OF RECORDS WITH THE RISK GROUP REGISTER

As a result of interrogation of the module, a codogram is received at the input of the system 42, having the following structure:

THE CODE THE CODE THE CODE THE CODE ASSIGNMENT OF IDENTIFICATION NUMBERS OF DATA REQUEST FOR RENDERING SERVICES ATTRIBUTES OF RECORDS CONTAINED IN THE READING DEVICE RISK GROUP CONFIRMATION

This codogram from the output of the system 49 enters the information input of module 3, where it is entered by the synchronizing pulse from the output of the system 48.

From the output 53 of module 3, the code combination is sent to the information input 36, 92 of module 4, 11 from where it is issued to the input of the DH decoder.

The DH decoder decrypts the code pattern and prepares the signal passage chain from the output 97 of module 13, revealing one of the elements S1. To determine, we assume that a high potential is received at one input of the element S1. In parallel with this, the synchronizing pulse from the input 75 of the system enters the input 86 of the module 10, where it is delayed by the element 36 while the codogram is entered into the module 11, 12 and the DH decoder is activated, and then it polls the state of the elements S1, "0", "1".

Given the fact that only one element will be open at one input, after passing through the block, the clock pulse enters the read input of a fixed memory cell through the register to the PZU read-only memory, where the code of the reference address of the database of the “risk group” is stored for the number of records like same combination.

The structure of the codogram stored in a fixed ROM memory cell has the following form:

THE CODE THE CODE Reference address of the risk group database The number of records with the specified typology and code combination (identification number, or)

The code of the reference address of the database of the “risk group” from the memory block is read to output 23 and then through the input 24 of module 2 it goes to the information input of the counter, and the code of the number of records is read to the output 27 and then goes to the information input 28 of the register of module 3, then through output 53 goes to the first 90, 92 input of module 11, 13.

In parallel with this process, the same pulse is read from the output of the module element 11 is delayed by the delay element 37 during the reading of the contents of the fixed cell PZU and then goes to the clock input 94 of the counter of module 13 and to the clock input 36 of module 4, fixing the corresponding read codes when reading from the output 97 of module 13, information for identification is transmitted to module 9, module 7, module 8.

The address code from the output 54.1 of the counter of module 12 is issued to the input 54 of the module 3, and then through the output 53 it goes to the input 36 of the module 4 and then it is issued to the first address output 11 of the system.

Simultaneously with entering the code of the reference address of the database “risk group” into the counter of module 7, the decoder passes the decoder from input 4, the counting element is delayed by the element Z33 for the time that the address code was entered into the counter, and then through module 57 it is output to module 60 input 6 which will be the first interrupt channel of the system database server with subsequent data transfer to outputs 62, 77, 81.

By this signal, the server goes to the subroutine for reading the contents of the database cell “risk group” at the address indicated on the output, issuing the first record of the database “risk group” to the information input 88 of the system and entering it into module 11 with a synchronizing pulse from the server to the input 89 modules 12.

The codogram of the first record of the “risk group” database to the input 73 of module 8 with subsequent processing and transmission of this system in terms of significance, which has the following structure:

THE CODE THE CODE THE CODE IDENTIFICATION OF THE ROOM ATTRIBUTES OF RECORDS CHARACTERIZING DRIVED DATA ENCRYPTION (CODE)

Thus, in module 11 there will be all the data attributes that are assigned to the risk group, and in module 1 at this point in time there will already be all the attributes of citizens' data records, the register of things allowed to be transported that are not part of the risk group.

The choice of the option of opening / closing (fixing) an automatic lock is confirmed and monitored by a request (an option is possible automatically or by an automated method of opening / closing) from the output 1 of module 1 and goes to the information input 30 of module 2, and the number of the telephone with the identification number comes from the output of module 6 to another information input of module 5 and 7.

In parallel with this process, the synchronizing pulse from the output 44 enters the synchronizing input 47 of the module 5 and passes through the comparator 75.

According to this clock pulse, the comparator compares the input codes and if the attributes do not match, then a signal appears on the output 49 of module 5, which goes to the input 50 of module 3 where it passes to the counting input of the counter 81 which identifies and counts the number of records in the risk database.

Secondly, the same clock pulse is delayed by the Z30 element for the time of operation of the counter 81 and then goes to the synchronizing input of the comparator 60.2 to one information input, from the output of register 90 the code of the number of records in the database of the “risk group” is supplied, and to the other information input code of the number of scanned records from the output of the counter 81.

If the number of scanned records recorded by the counter 81 is less than the number of records of the “risk group” database, then an impulse appears at the output 52 of module 3. This pulse through the input 38 of module 4 passes to the counting input of the counter, increasing by one the reference address of the server database, which from the output 40 of module 4 goes to the address input 41 of the counter 1.

In addition, the same pulse goes to the input 91 of module 11, where the element passes, is delayed by the Z38 element, passes through the register, and then through the system output 93 it is issued to the input of the first channel of the database server interrupt.

Based on this signal, the server again switches to the subroutine for reading the contents of the database cell of the “risk group”, at the newly formed address for issuing it to the information input 45.1 of the system and entering the contents of this database cell into module 6 with a synchronizing pulse from the server to input 55.

The described process of reading the attributes of records with the parameters included in the “risk group” from the cells of the database and comparing their contents with the attributes will continue until all records in the database of the “risk group” are viewed. This fact will be recorded by the comparator 75 of module 5 with the output of the signal to output 54.

From the output 54 of module 5, firstly, it enters the input 54 of module 3, where element 45 passes and then goes to the installation input of counter 82, its initial state is reset, and through output 37 of module 3 it enters the input 96 of module 13, s subsequent transfer to the installation modules 8, 9 and 6, 7, 10.

If module 3 fixes the fact that the input codes are equal, which will indicate that the entered and verified data belongs to the “risk group”, output 11 will display a signal and a panel on the “/ DANGER / OR” control arm. In addition, the signal from the input 54 of module 3 is fed to the input 36 of module 4, where element S1 passes and enters both the installation counter 82, resetting it to its original state, and through output 40 it enters the installation modules 1, 2, 3.

If the signal as a result of checking on the database of the “risk group” is not related to the group, then it is automatically included in the register of positive sections, and the signal is sent to the addresses of the codograms. The documentation procedure is implemented as described in the early case.

After marking and making the selection, the system is ready to output the final data to the central database of the system.

For this purpose, the output of the system 12 consistently serves codes of the following data attributes:

THE CODE Feature Characteristic 01 Citizen Data 13 Registration Information 8 Data on the load "risk group" 17 Data on the availability of those. funds and email. components

We consider the operation of the system using the example of documenting data with the first sign code 01.

The code of the first sign from the output 69 of the system is entered into the register 50.7 of module 9 with a synchronizing pulse supplied to the input 68 of the system, delayed by element Z34. From the output 76 of module 9, the feature code is fed to input 79, 87 of module 12, 11 and a pulse is supplied from the input 66 of the system, delayed by element Z36, while the feature code is entered into register 50.7 and the decoder 50.6 is activated.

The clock pulse passes through element 30.5, and from the output 78 of module 9 it enters the input 79 of module 12, from where, first, through the element it enters the trigger input, setting it to a single state, in which free elements of the group open differently from the first output input, thereby connecting the output of the adder through the register to the output 92.

As a result, the address of the last record stored in the adder from the output 92 of the module 12 is supplied to the input 96 of the module 13 through the decoder and then the group elements are issued to the address input 93 of the module 11 and then to the 13 system output.

Secondly, the synchronizing pulse from input 78 is delayed by element Z39 for the duration of trigger 1 and is transmitted through the element to output 97 of module 13, from where it passes to input 65 of module 7, the reading element passes and is output to output 57, 43 as a read control signal data goes to output 11. From system output 55, the signal goes to the input of the third channel of the database server interrupt.

By this signal, the server switches to the subroutine for reading the contents of the database cell at the address specified at input 88 of module 12, and issuing the first database record.

In addition, the synchronizing pulse from the output of element 80 passes through the register, is delayed by element Z38 for the duration of reading data from the database, and, firstly, through the element of equality is held by delay element Z39 and arrives at a stable input of the adder, resetting it to its original state. Secondly, this pulse is fed to the subtracting input of the reversible counter, reducing its readings by one.

Thirdly, this pulse is delayed by the Z37 element for the duration of the operation of the reversible counter and arrives at the synchronizing input of the comparator 45.7.

The comparator 45.7 compares the readings of the reverse counter with a zero code supplied to its other input, and while the readings of the counter are greater than the zero code, then the comparator 45.7 generates a signal at the output, which sums the reference address code with the readings of the reversed counter by one and gives the total address through the storage device to the address 11 output of the system.

Secondly, the same pulse is delayed by the delay element Z42 for the operation time of the adder, element S1 passes through the comparator, element 120 passes and is output to input 26 as the next data reading control signal.

By this signal, the server again switches to the program for reading the contents of the database cell at the address indicated on the output, and issuing the next record of the participants database to the display and printing facilities.

In addition, the synchronizing pulse from the output of the element 80 is again delayed by the element Z38 for the time of reading data from the database and, first, again through the element it goes to the stable input of the adder, resetting it to its original state.

Secondly, it again enters the subtracting input of the reversible counter, decreasing its readings by one.

And thirdly, it is delayed by the Z39 element for the duration of the operation of the reversible counter and arrives at the synchronizing input of the comparator 45.7.

The comparator again compares the readings of the reverse counter with a zero code supplied to its other input, and while the counter reads more than the zero code, a signal is generated at the output of the comparator 45.7, which is fed to the synchronizing input of the adder, which sums the reference address code with decreases by unit readings of a reversible counter and provides the final address to the address 92 of the system output.

The described process of reading the participants database data continues until the comparator 45.7 records the fact that the readings of the reversible counter are equal to zero, indicating that all the lines of the database data record about the participants are issued to the display and printing facilities.

This fact will be confirmed by the issuance of a pulse to the comparator 45.7, which is supplied to the stable inputs of the reversible counter, adder, and trigger 1.

In a similar way, the system works both when issuing and when entering data with other qualifications.

Thus, the introduction of new modernization of existing nodes, blocks and modules made it possible to significantly increase the reliability of the system by implementing automatic system implementation procedures in practice and significantly improved the efficiency of the automated identification, control, security, safety, transportation, cargo delivery and passenger registration system due to use of technical, informational, automatic devices.

Sources of information taken into account when drawing up the description of the application:

1. Savitskaya G.V. Economic analysis. M .: New Knowledge LLC, 2007

2. A.I. Ginsburg. Economic analysis "Peter" 2011

Claims (1)

An automated passenger transportation system, including a module for receiving information by scanning, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, while the information input of the scanning module is designed to receive data from the output of an automated data reader, the synchronizing input of the scanning module is designed to receive synchronizing signals from the output of an automated reader, while one in the formation input of the system is the information output of the system, the scan module interacts with the input of the system identification module from the output of the scan module to the input of the data selection module of the specified parameters, and the received information after processing by the blocks and the comparator receives output that is transmitted to the output of the selection module with subsequent transferring to the module for generating user database addresses, a module for identifying reference base data addresses that are at risk, when The device has information and synchronization inputs for interacting with the data receiving module of the integrated integrated circuit, as well as synchronizing and information outputs for exchanging requests and data, the scanning module interacts with the input of the system identification module, and information is also transmitted from the output of the scanning module to the input of the selection module data of specified parameters, while the selection module is designed to select data in an automated mode with a database server systems, and the received information after processing by the blocks and the comparator receives output that is transmitted to the output of the selection module with subsequent transmission to the address generation module of the user database, the address generation module, which are at risk, are read from the system server database to the synchronizing output of the selection module of the base address of data records of a given degree of risk group in the system server database, the information output of the address generation module is read I the system server database is the first address output of the system intended for issuing the read addresses of the server database, and the synchronizing output of the module for generating the read addresses of the system server database is the synchronizing output of the system designed for issuing control signals to the input of the first channel of the database server interrupt, characterized in that the system contains a module of reference base data addresses that are included in the risk group, the information input of which is connected by the second inform by the output of the module for selecting the base address of data records for the system server database, and the synchronizing input of the module for identifying basic data addresses that are at risk of identifying data included in the risk group is connected to the synchronizing output of the module for selecting the base addresses of data records in the system server database and a module for archiving received information that has been processed, a module for selecting base addresses of data records to a system server database, one information input of which it is connected to the third information output of the identification module, which are included in the risk group, and the permission module for transmitting a signal from the system server database, another information input of the selection module for the base addresses of data records to the system server database to the first information output of the system server database database records receiving module, the synchronizing input of the selection module of typical records of the received information is connected to the second synchronizing input of the system, while the first output of the selection module of data of the given addresses of data records in the system server database to the first clock input of the system server database read addresses generation module, and the second output of the data collection module for typical records of incoming information is connected to the count input of the integration module, decryption of signals, codes, ciphers of data read records and identification module, included in the risk group, the identification module of the reference base data addresses that are included in the risk group, when interacting with the data receiving module of the integrated integrated micro The device’s circuits have information and synchronization inputs, and for exchanging and transmitting requests and data, synchronizing and information outputs, when transmitting data to the parameter identification module, the information and synchronizing inputs of the module are information and synchronizing inputs to systems, while the information input is designed to receive data from the output of the automated device, while the first synchronizing output of the identification module, included in the risk group, and its presence, and is connected to the second clock input of the system server database read address generation module, and the signal integration, signal decryption, data read records module, one information input of which is connected to the second information output of the system server database database record reception module, another information input of the processing, identification, encoding module and transmission of fixed information, one information input of which is connected to the second information output of the system server database database record receiving module, another information the ion input of the module for processing, identification, coding and transmission of fixed information is connected to the information output of the identification module of the reference base data addresses that are at risk, one synchronizing input is connected to the information output of the data identification module of the reader, the information and synchronization inputs of which are information and synchronizing system inputs, while the module information input is designed to receive data from the output of the recording reception module of the first database from the server of the system to the input of the module, the archiving module of the information that has passed the processing is intended to receive synchronizing signals from the output of the automated device of the scanning module, the first and second being information outputs, and transmitting to the input of the integration module, decrypting signals, codes, ciphers data reading records, which is connected to the second output of the selection module for typical records of incoming information, another synchronizing input of the integration module, decryption with signals, codes, ciphers of read records is connected to the second synchronizing output of the identification module of the reference base data addresses that are at risk, and the information output of the integration module, decryption of signals, codes, ciphers of read data records with the transmission of processed data is the information output of the system, intended for transmitting data to a display, screen, display, can be with sound to the main, received and used device.

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