RU2598291C1 - Method for rapid identification of people and apparatus for implementation thereof - Google Patents

Abstract

FIELD: computer engineering.

SUBSTANCE: invention relates to automation, computer equipment and safety. Method for rapid identification of people is characterized by using video surveillance cameras, notebook and a module for controlling the external interface (MCEI), control station, frames for passage of people (FPP), flat electric panels of shadowless illumination (EPSI), network switch, server, wireless data transmission module (WDTM) and mobile telephone, independent power supply means. Apparatus for rapid identification of people comprises the FPP, four posts with hinged foot-step bearings placed at the bottom of each post, four crossbars, two threaded rods, eight nuts, eight bolts and eight fly-nuts, rods, bolts, nuts and fly-nuts have the same thread, and bolts and rods are inserted into the holes distributed along the whole length of posts and crossbars.

EFFECT: efficient identification of people.

1 cl, 2 dwg

Description

The invention relates to the fields of automation, computer engineering and security and can be used in places of passage of a large number of people (at airports, at railway stations, stadiums, at customs and border checkpoints, etc.) to identify and register people who allowed or have offenses, etc., as well as to promptly inform the services of these persons.

Widely known are methods and control devices using the framework of Garrett, Fischer, Tesoro and others, installed in places of passage of people and working, as a rule, together with metal detectors in order to timely detect explosive devices with metal filling of mass destruction or to identify wanted intruders, for example using a stationary metal detector Garrett ACE [Information portal Mail.ru Yandex. Direct. xscan.ru; (c) “Week”, 2014], which is an arched inspection metal detector containing a floor frame structure for people to walk through.

The disadvantages of the known methods and devices are their use in a permanent place and the inability, if necessary, to quickly transfer them to another place (due to their massiveness), as well as their relatively low automation without registration in the database of detected adverse events and related entities with their characteristic features, as well as due to the lack of a special shadowless highlighting on the frame - the inability to use them to carry out full-fledged control of quickly passing people (Fizionometrichesky et al.), Usually in low ambient lighting of, for example, railway stations and similar places. The absence of shadowless backlighting does not allow to ensure the quality and high speed of face recognition.

Closest to the technical nature of the claimed invention is the "Airport Security System" [patent for a utility model of the Russian Federation No. 111939 according to IPC G08B 21/00 of 08/03/2011], which presents a method and device characterized by the use of a frame for the passage of people (RPL, and in the prototype - the scope of a metal detector), video surveillance cameras, a computer and communication tools with which to identify situations of interest (dangerous, etc.), register them in the computer's memory and transfer them to the control point, from where they receive truktsii with a list of security measures that must be taken.

A disadvantage of the known method and device is the impossibility of promptly transferring the RPL to a given place in them, meanwhile, under the conditions of terrorist threats, it has become necessary to quickly deliver, deploy and activate the RPL together with the means assigned to it in an arbitrary place, for example, convenient as envisioned by a special service . In this case, the RPL must be variable in geometric dimensions so that it can fit in a close corridor, etc.

The prototype also does not provide high-quality visualization of passing people, because It doesn’t have shadowless illumination facilities, and, most importantly, it is not focused on analysis and identification of human faces. In addition, it is not automated enough to solve the complex task of pattern recognition, which includes the task of identifying people in large flows. To memorize large amounts of data, you need a server that is not in the prototype, as well as a network switch.

The technical result and the purpose of the invention are to provide quick identification of people in a given (randomly unknown beforehand) place, for example, in a place (it is urgent to deliver and activate RPLs with automation there) crossing the stream, going bypass to the plane, for quick identification and Detentions by electronic images or identikits or other orientations of wanted people, for identification of persons for admission to the object, as well as for the initial identification of violators or primary analysis according to specified criteria in random flows of people, and in all cases - with the registration of information received and with the exchange of information with related similar points and with a higher control point.

The indicated technical result and goal are achieved by the fact that in the method of promptly identifying people, characterized by the use of a people passage frame (RPL) and automation means as part of video surveillance cameras, a laptop, and an external interface control module (MUVI), using which identify the information of interest, register it in memory and transmit it to the control point, from where they receive instructions with a list of security measures that must be taken, according to the invention the used RPL is a collapsible and portable set that is quickly delivered to an arbitrary specified place, quickly assembled on the spot, using the possibility of changing the geometric dimensions of the RPL, together with which the automation tools mentioned above also deliver flat electric shadowless panels (EPBP ), a network switch, a server, a wireless data transmission module (MBPD) and a mobile phone with the current orientation, as well as autonomous power supplies a the parameters are then secured to the RPL on the sides of the electronic control panel, and on top of the RPL - video surveillance cameras, functionally connect all automation equipment, supply power to them and ensure an orderly passage of people through the RPL, while they are qualitatively illuminated with the help of the EPB, they are carried out using CCTV cameras through a network switch running a laptop records the face of each person passing through the RPL into the server’s memory and displays the current dynamics of the video sequence on the laptop screen for visual comparison by the controller with In addition, automatically, using a laptop program operating with biometric characteristics of the face, the video recording of the faces of each person is converted into the current mathematical photo profile, which is a digital code of a fixed length corresponding to the biometric characteristics of a specific person, which is recorded in the server and compared with mathematical stored in its memory by photographic profiles of wanted persons, when identifying the current mathematical photographic profile to one of the wanted photographic profiles cally using MOVIE relevant information is transmitted to the control station and the laptop screen display controller for a message, in case of failure of means of video surveillance and video controller carries out the desired video with a mobile phone.

The indicated technical result and goal are also achieved by the fact that the device for the rapid identification of people, containing a frame for people to walk through (RPL), structurally representing a portal through which people and automation equipment as part of video surveillance cameras, a laptop and an external interface control module (MUVI) pass , the external conclusions of which are the outputs of the device, additionally contains electric shadowless backlight panels (EPBP), a network switch, a server, a wireless data transmission module (MBPD) and my telephone, and as an RPL, a collapsible and portable set is used, unassembled, placed in the first styling in a case for hand carrying and containing the following identical nomenclature details - four racks with hinged thrust bearings at the bottom of each, four crossbars, two threaded rods, eight nuts, eight bolts and eight thumbs, and the rods, bolts, nuts and thumbs have the same thread, and the holes distributed along the entire length of the uprights and crossbars include bolts and rods, the kit allows you to collect spills rectangular portals of height and width, triangular prisms and pyramids, while the width of the RPL passage is formed by threaded rods installed as upper horizontals, pulling together the side racks anywhere on the rods, and the height by the angle of the racks, in the second installation in a case for manual carrying they place all the automation tools mentioned above, on the assembled RPL inside of each side wall are suspended electronic safety devices with the direction of lighting on top of each other, and on top of the threaded rod - surveillance cameras, on the floor on the side of Bypasses are installed by a server, a network switch, MBPD and MUVI, and in the hands of the controllers are a laptop and a mobile phone, the outputs of CCTV cameras connected to the corresponding inputs of the network switch, the first, second, third and fourth bi-directional outputs of which are connected respectively to the bi-directional outputs of the MBPD, server, MUVI and laptop.

In FIG. Figures 1 and 2 respectively show the structural diagram of the device and a possible design of the RPL, for example, for the case when the device is serviced by two controllers (operators), one of which works with a laptop (the first workstation is AWP), and the second mobile is located directly next to the RPL with mobile phone (second AWP).

The device contains an RPL 1, which is structurally a portal 2 through which people pass, inside of which are located on the side walls electric panels 3 and 4 of shadowless lighting (EPBP) and automation equipment RPL - AWP 5 operator, AWP portable (AWP) 6, network switch 7, a server 8, video surveillance cameras 9 and 10, a wireless data transmission module (MBPI) 11, an external interface control module (MUVI) 12 for communicating with adjacent points of people flow control and a control point via terminals 13 of the device.

The software 14 used in the device is beyond the scope of the present invention and is shown in FIG. 1 dotted line for explanation.

RPL 1, in turn, contains (Fig. 2) seven repeating nomenclature parts - four racks 15 with hinged thrust bearings 16 at the bottom with each threaded adjuster 16.1, four crossbars 17, two threaded rods 18, eight nuts 19, eight bolts 20 and eight lamb 21.

In order not to obscure the essence of the application in FIG. 1 and 2 are not shown such non-essential features as elements and power connections, minor structural elements. The most important EPBPs 3 and 4 are shown both there and there.

The outputs of CCTV cameras 9 and 10 are connected to the corresponding inputs of the network switch 7, the first, second, third, and fourth bi-directional outputs of which are connected respectively to the bi-directional outputs of MBPD 11, AWP 5, server 8 and MUVI 12, the bi-directional output 13 of which is the output of the device.

In this example, as a workstation 5 and workstation 6, a laptop and a mobile phone are used, respectively, although in other cases they can be: the first is a seat with a table for the first operator (controller), on / in which the computers are located in the form of a system unit, associated with a keyboard, a mouse-type manipulator, a video monitor, a printer and an uninterruptible power supply, and the second is a tablet of a second operator (controller) located near RPL 1.

All elements used in the system are widely used in the industry of the Russian Federation, for example, the applicant used:

as computers in AWP 5 - various laptops or personal computers of the IBM-PC family, no worse than Pentium-4 and 2 GB;

as ARMP 6 - a mobile phone or tablet computer iPad 3;

as the BPO 1 - the frame frame of the SmartScan metal detector;

as light panels 3 and 4 - Briaton panels;

as a network switch 7 - Dlink 8р РОЕ;

as surveillance cameras 9 and 10 - Arecont Vision AV-3110,

HS35SA 2/3 F 1.4 lens;

as server 8 - Asus motherboard, i7.2 processor, nVide Geforce graphics cards.

The proposed RPL kit 1 consists of only seven nomenclature parts with high repeatability.

As the device software, a complex of programs for biometric identification of images developed by LLC World of Systems and Technologies was used.

A method for the rapid identification of people, characterized by the use of a framework for people passage (RPL) 1 and automation means in the control unit for people’s flow, consisting of video surveillance cameras 9 and 10, laptop 5 and external interface control module 12 (MUVI), which help to identify information of interest , register it in memory and transmit it to the control point, from where they receive instructions with a list of security measures that must be taken, is also characterized by the fact that the used RPL 1 is a combined The portable and portable set, which is promptly delivered to an arbitrary predetermined place, is quickly assembled on the spot using the possibilities of changing the geometric dimensions of the RPL 1, together with which the automation tools mentioned above additionally deliver the flat electric panels 3 and 4 of shadowless backlight (EPBP), network switch 7, server 8, module 11 wireless data transmission (MBPD) and a mobile phone 6 with the current orientation, as well as stand-alone power supply equipment, then secure to the RPL 1 on the sides of the ЭППП 3 and 4, and on top of РПЛ 1 - video surveillance cameras 9 and 10, functionally connect all automation means, supply them with power and provide an orderly passage of people through РПЛ 1, while they are qualitatively illuminated with the help of ЭППП 3 and 4, carry out using video surveillance cameras 9 and 10 through a network switch 7 under the control of a laptop 5, video recording of the faces of each 1 person passing through the RPL in the memory of server 8 and the current video sequence dynamics is displayed on the laptop screen 5 for visual comparison by a controller with a photo camera m, in addition, automatically, according to the laptop program 5, which operates with biometric characteristics of the face, the video recording of the faces of each person is converted into the current mathematical photo profile, which is a digital code of a fixed length corresponding to the biometric characteristics of a particular person, which is recorded in server 8 and compared with those stored in it memory by mathematical photographic profiles of wanted persons, automatically identifies the current mathematical photographic profile to one of the wanted photographic profiles ki MOVIE 12 via the corresponding information is transmitted to the control point, and on the laptop screen 5 to display a message controller, failure monitoring and recording means performs necessary video controller using a mobile phone 6 and 11 IBCR.

The device for the rapid identification of people, containing a frame for the passage of people (RPL) 1, structurally representing a portal 2, through which people and automation tools as a part of video surveillance cameras 9 10, laptop 5 and external interface control module 12 (MUVI) pass, external outputs 13 which are the outputs of the device, additionally contains electrical panels 3 and 4 of a shadowless backlight (EPBP), a network switch 7, a server 8, a wireless data transmission module (MBPI) 11 and a mobile phone 6, and as a RPL 1 they use failure a dismountable and portable set, disassembled, placed in the first installation in a case for manual carrying and containing the following repeating nomenclature details - four racks 15 with hinged thrust bearings 16 at the bottom of each with threaded adjusters 16.1, four cross members 17, two threaded rods 18, eight nuts 19, eight bolts 20 and eight flaps 21, and the rods 18, bolts 20, nuts 19 and flaps 21 have the same thread, and bolts 20 and rods enter the holes distributed along the entire length of the struts 15 and crossbars 17 18, the kit allows you to there are rectangular portals 2 of various heights and widths, triangular prisms and pyramids, while the width of the passage of the RPL 1 is formed by threaded rods 18, which are installed as upper horizontals, tightening the side racks 15 anywhere in the rods 18, and the height - the angle of the racks 15, in the second installation in the case for manual carrying is placed all the above automation tools, on the assembled RPL 1 inside each side wall are suspended EPBP 3 and 4 with the direction of lighting on top of each other, and on top of the threaded rod 18 - cameras 9 and 10 video observations, on the floor on the side of the aisle they install a server 8, a network switch 7, MBPD 11 and MUVI 12, in the hands of the controllers are a laptop 5 and a mobile phone 6, and the outputs of the surveillance cameras 9 and 10 are connected to the corresponding inputs of the network switch 7, first, the second, third and fourth bi-directional terminals of which are connected respectively with the bi-directional terminals of MBPD 11, server 8, MUVI 12 and laptop 5.

The method is as follows.

Suppose, for example, a device is already promptly delivered and installed at a specified location at the airport, bypassing the usually used passage of air passengers (to separate the flow of passengers with a suspected terrorist from other air passengers with a view to their safety). Assembly details of the device are discussed below in the corresponding section.

In anticipation of the flow of air passengers, the first controller takes a few meters ahead after the passage of RPL 1, makes the necessary settings on the laptop (loading, setting the operating mode, checking communication with subscribers) and starts the device, and the second controller with a mobile phone takes place directly near the RPL one.

When there are air passengers, the first controller on the laptop screen examines the faces of people passing by, comparing them with a photobot. The second controller does the same, but examining faces in reality. In parallel with this, the automation tools record the information coming from the surveillance cameras 9 and 10 through the network switch 7 into the memory of the server 8 (the video sequence dynamics is simultaneously displayed on the laptop 5 screen for the first controller) and, with the help of the laptop, they transform it into a mathematical photo profile for each person, which is then compared with the mathematical photographic profile of the wanted person recorded in the server.

Upon detection of a match of a person passing through the RPL 1 with an identikit wanted by any of the controllers or identification using automation means, this will be automatically reported to the control center via MUVI 12 and output 13 via a communication channel, the corresponding message will be displayed on laptop screen 5, therefore special services detain a suspect.

A key aspect of the proposed method is the high speed of searching for matches of recognized faces with the database, which provides automated RPL 1, which allows to obtain a significantly larger number of frames per second from each camera and, ultimately, to capture a large flow of people without stopping it in front of the cameras. In addition, the analysis of a large number of frames (4-9 frames for each person passing at a speed of 2.5-3.5 km / h) can increase the percentage of successful detection of violators. This ensures a high speed image processing (about 30 ms per 1000 faces), the search for identifiable images.

The device operates as follows.

The second most important key aspect of the claimed invention is the prompt delivery to a given place, assembly and activation of the RPL 1, which is a collapsible and portable set, disassembled, placed in the first installation in a case for manual carrying and containing the following repeating nomenclature details - four racks 15 with hinged bearings 16 at the bottom of each with a threaded adjuster 16.1, four crossbars 17, two threaded rods 18, eight nuts 19, eight bolts 20 and eight winglets 21.

Let’s assemble from this simple set of RPL parts 1. Suppose a given location allows you to use a more spacious structure - a rectangular portal, maximum in height and width.

To do this, we take from the first installation two pairs of racks 15 (Fig. 2) with threaded adjusters 16.1 of thrust bearings 16 pre-screwed into them, and in each pair on one rack 15 two cross members 17 are pre-screwed at different heights with bolts 20 and nuts 19, but on the other, no. Using two bolts 20 and two winglets 21, we fasten the first pair of struts 15, and then the second one in the same way. Next, the resulting two pairs of racks 15 are screwed together using two threaded rods 18 inserted into the upper holes of the racks 15 with one end in one pair and the other in the other. In this case, the rod from the inside of the strut 15 on the rod is a nut 19, and from the outside - a wing 21. Finally, it is necessary to achieve stability of the whole structure with the help of threaded adjusters 16.1 of the articulated thrust bearings 16.

The rods 18, bolts 20, nuts 19 and flaps 21 have the same thread and enter the holes distributed along the entire length of the uprights 15 and are transverse 17. This makes it possible to assemble rectangular portals of various heights and widths, triangular prisms and pyramids, while the width of the passage of the RPL 1 is formed by threaded rods 18, installed as the upper horizontal, tightening the side racks 15 anywhere on the length of the rods 18. and the height - the angle of inclination of the racks 15.

In the second installation, all the above automation tools are placed in a case for manual carrying. EPBP 3 and 4 are hung on the assembled RPL 1 inside on each side wall with the direction of lighting on top of each other, and on top of the threaded rod 18 - surveillance cameras 9 and 10, on the floor side of the aisle, server 8, network switch 7, MBPD 11 and MUVI 12.

Disassembly and installation of the device are carried out in the reverse order.

The operation of the device disclosed above in the description of the method.

It is only necessary to add that the above stackings weigh less than 5 kg each, and the assembly of the RPL 1 takes about 2 minutes.

Claims (2)

1. A method for the rapid identification of people, characterized by the use of a frame for people passage (RPL) and automation tools as part of video surveillance cameras, a laptop, and an external interface control module (MUVI) at the point of people flow control, by which information of interest is identified, it is recorded in memory and transferred to the control center, where they receive instructions with a list of security measures that must be taken, characterized in that the used RPL is a collapsible-portable A complete set that is promptly delivered to an arbitrary specified location is quickly assembled on the spot using the possibilities of changing the geometric dimensions of the RPL, together with which the automation tools mentioned above additionally deliver flat shadowless electric panels (EPB), a network switch, a server, a module wireless data transmission (MBPD) and a mobile phone with the current orientation, as well as autonomous equipment power supplies, are then fixed on the RPL on the sides of the EPBP, and on top of the RPL - CCTV cameras functionally connect all automation equipment, supply them with power and ensure an orderly passage of people through the RPL, while they are qualitatively illuminated with the help of electronic safety devices, and using the CCTV cameras through a network switch under the control of a laptop, video recording of the faces of each person passing through the RPL server and display on the laptop screen the current dynamics of the video sequence for visual comparison by the controller with the image robot, in addition, automatically according to the laptop program, using the biometric characteristics of the face, the video recording of the faces of each person is converted into the current mathematical photo profile, which is a digital code of a fixed length corresponding to the biometric characteristics of a specific person, which is recorded in the server and compared with the mathematical photographic profiles of the wanted persons stored in its memory when identifying the current mathematical photographic profile to one from the searched photo profiles automatically using the MUVI I transmit the relevant information t to the control point, and on the laptop screen they display a corresponding message for the controller. 2. The device for the rapid identification of people, containing a frame for the passage of people (RPL), structurally representing a portal through which people and automation tools as part of video surveillance cameras, a laptop and an external interface control module (MUVI) pass through, the external conclusions of which are the device’s outputs, characterized in that it further comprises shadowless electric backlight panels (EPB), a network switch, a server, a wireless data transmission module (MBPD) and a mobile phone, and as an RPL, They call a collapsible and portable set, which is disassembled in the first installation in a case for manual carrying and containing the following identical nomenclature details - four racks with hinged thrust bearings at each bottom, four cross members, two threaded rods, eight nuts, eight bolts and eight thumbs, and the rods, bolts, nuts and thumbs have the same thread, and the holes distributed along the entire length of the uprights and crossbars include bolts and rods, the kit allows you to assemble rectangular pieces of different heights and widths orthals, triangular prisms and pyramids, while the width of the RPL passage is formed by threaded rods that are installed as upper horizontals, pulling together the side racks anywhere in the length of the rods, and the height by the angle of the racks, in the second installation, all the above means are placed in the case for manual carrying of automation, on the assembled RPL inside each side wall are suspended electronic safety devices with the direction of lighting on top of each other, and on top of the threaded rod - surveillance cameras, on the floor on the side of the aisle a server is installed, network howling switch, MBPD and MUVI, and in the hands of the controllers are a laptop and a mobile phone, and the outputs of the surveillance cameras are connected to the corresponding inputs of the network switch, the first, second, third and fourth bi-directional outputs of which are connected respectively to the bi-directional outputs of the MBPD, server, MUVI and laptop, when assembling the frame from the first installation, take two pairs of racks with threaded thrust adjusters pre-screwed into them, and in each pair on one rack they are pre-screwed at different heights with the help of There are two crossbars on the bolts and nuts, but not on the other, with the help of two bolts and two thumbs the first pair of posts is screwed, and then the second, in the same way, then the two pairs of posts obtained are screwed together using two threaded rods inserted into the upper holes the racks at one end in one pair and the other at the other, while on the inside of the rack on the rod there is a nut, and on the outside of the lamb, in the end, it is necessary to achieve stability of the whole structure with the help of threaded adjusters of the hinged thrust bearings.

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