RU2321068C1 - Method for video control and access management - Google Patents

Abstract

FIELD: management and control of access, possible use for limiting access to rooms, and also to prevent unsanctioned usage of vehicles.

SUBSTANCE: in accordance to the method, video image of the face of an individual wishing to enter a room is produced, individual facial features are singled out, encoded video image of facial features is formed and recorded. When an individual is detected in automatic presence control zone, video observation camera is enabled. In low light conditions, automatic presence control zone is illuminated. The signal produced by observation camera is transformed to current encoded video image of facial features of an individual. Aforementioned image is compared to recorded encoded video image of facial features of an individual and in case when certain degree of similarity is present, access to the room is permitted, otherwise the access is blocked. In claimed method, as opposed to known methods, for given room a corresponding address code is set, and memorization of encoded video image of facial features is performed by applying it onto access identification card, which contains address code of given room. The card is given to an individual who wishes to enter the protected room. Simultaneously with creation of current encoded video image of facial features, address code of protected room is read from access identification card as well as memorized encoded video image of facial features of an individual. The read room address code is compared to given code. In case of mismatch access to the room is prevented and further identification on basis of video image is not performed. In case of match of read address code and given code, current and memorized encoded video images are compared.

EFFECT: substantially simplified realization of system for controlling and managing access, reduced costs of operation of the system.

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Description

The invention relates to access control and management systems (ACS) and is intended to restrict access to various premises (residential apartment buildings, sensitive facilities, office and other premises requiring limited access of visitors), as well as to prevent unauthorized use of vehicles (for example, yacht or company bus).

One of the most common types of access control systems are the so-called "code panels".

For example, in the article "New Technologies in the Production of Code Panels" (Security Systems magazine, April-May 2004, p.83), the SKP-8 code panel is introduced on the ACS market by SEAN (Russia). SKP-8 code panel is characterized by the following features:

- the choice of the type of lock (electromechanical or electromagnetic) is carried out programmatically from the keyboard of the code panel;

- light and sound indications of operating modes are used;

- the delay time for opening the door can be changed programmatically;

- in low light conditions, the keyboard backlight of the code panel is automatically turned on;

- the number of user codes stored is large enough (more than one thousand).

The main advantages of code panels, due to which these devices are widely used, are their simplicity and low cost. However, code panels only make it difficult for people who do not have the right of permanent access to these rooms to secure premises, but they do not allow preventing access to them. As a rule, people who want to go to the indicated secure premises (among which there may be intruders) will sooner or later find out the secret access code, after which the code panel is no longer an obstacle for them.

To control the access of visitors from the street (for example, to a cottage where one family lives), intercoms are used. Moreover, in recent years, video intercoms, that is, intercoms with an integrated video camera, have gained increasing popularity (for example, a review in the journal "Security Systems", June-July 2004, p.90, 91, the article "Video Intercom from the company" Digital "in the journal" Systems security ", December 2003 - January 2004, p.66, 67, materials on the website www.cyfral.ru). When the visitor presses the call button, a sound signal sounds in the video monitor installed in the respective apartment and an image automatically appears on the video monitor display screen visitor received from the cameras of the corresponding door block of the call The apartment owner or members of his family (hereinafter referred to as users) open the door of the cottage with which the call came in using the access control button (if the cottage has several entrance doors, for example, a front door and a black one). The intercom phone can talk with the visitor After the intercom handset is off-hook, the video monitor will automatically shut off. If there is no user response (pressing the access control button or picking up the handset of the intercom telephone), the video monitor will turn off with some delay.

However, it is impossible to use such video on-door speakerphones in residential multi-apartment buildings with several entrances. They do not answer two basic questions:

- how the passage to the house of the residents of those apartments, inside which there is not a single person, should be organized;

- How to pay residents of apartments using a video intercom.

To solve the first of these problems, in practice, they either add on-door speakerphones (or video on-door speakerphones) with code panels, or install an electromechanical lock on the entrance door, and all residents of this entrance are provided with keys to this lock. Both solutions to this problem cannot be considered sufficient in terms of reliable access restrictions. The mechanical addition of a code panel to the doorphone endows the doorphone with the aforementioned drawback of the code panel - an attacker who has decided to enter a secure room will sooner or later find out the code necessary to open the front door and overcome this security line, despite the presence of the doorphone. The use of an electromechanical lock is even worse, since many keys must exist from it (for each resident of the entrance). An attacker can easily steal or ask for such a key for temporary use, then copy it.

Even more complicated is the issue of paying for this service. At any moment, a scandal may break out over the fact that our apartment should pay as much as the other one pays, although much fewer visitors come to us. The periodic occurrence of such scandals makes it difficult to deploy intercom ACS.

A more successful solution for equipping access control systems of an apartment building with differentiated payment for its use is the system described in patent EP No. 0767571, Н04М 11/02. It is an ACS, containing a call block in each of the entrances of a residential building with guarded apartments, and in each of the protected apartments - an intercom telephone and a first control panel, as well as a two-way communication channel through which each of the intercom phones and each of the first control panels are connected to the selection unit, which is part of the corresponding call unit, which also contains a surveillance camera and a microphone connected to the corresponding signal inputs of the selection unit, the control input of which connected to the output of the call keypad, to which the communication button is connected, and the outputs of the selection unit are connected, respectively, to the speaker and to the access control unit, configured to temporarily unlock the entrance door lock and indicate the operation modes of the call unit using an indicator connected to the unit access control, and ACS includes a system control unit located in the office building of a residential building with a microcontroller connected to a two-way communication channel, and in some of the protected There are information displays installed, each of which has a video input connected to a two-way communication channel.

In this ACS, information displays, on the screens of which users of protected apartments see an image of the visitor's face, can, in principle, be installed in any protected apartment. However, the actual installation of the information display is carried out only at the request of the users of the apartment, if they agree to pay for the installation and pay an additional fee for using the information display.

However, the problem of unlocking the entrance doors for users whose apartments are currently empty, and this ACS remains unresolved. This problem is solved by introducing office premises in the house (for example, one office building for several entrances). Inside one of these office rooms is the system control unit. The ACS equipment in the office building (except for the system control unit) is completely similar to the equipment of the guarded apartment in which the information display is installed. Inside the office is a concierge. If there is no one in any guarded apartment, then at the entrance to the entrance, users of such an apartment dial a code for communication with the office premises, and the concierge, who should know in the face of all those living in several entrances, opens the entrance door using his first control panel. In addition, the concierge should know in person and those who come to the house for official needs: a cleaning lady, a postman, an elevator repairman and others.

The work of the concierge is very time-consuming, and the more the concierge serves the porches of the house, the more difficult his work. In addition, no one pays for the duration of the dialogue between apartment users and the concierge. This payment procedure may result in even more concierge loading. These are the disadvantages of the known ACS.

The invention of Patent RU No. 2259019, Н04М 11/00, G08В 15/00, which describes an access control system containing a call block in each of the entrances of a residential building with protected apartments, and an intercom telephone in each of the protected apartments, is aimed at eliminating these drawbacks. and a first control panel, as well as a two-way communication channel through which each of the intercom phones and each of the first control panels are connected to a selection unit included in the corresponding call unit, which also includes a surveillance camera and a microphone connected to the corresponding signal inputs of the selection unit, the control input of which is connected to the output of the call keypad to which the communication button is connected, and the outputs of the selection unit are connected, respectively, to the speaker and to the access control unit configured to temporarily unlock the entrance door lock and display operating modes of the call block using an indicator connected to the access control unit, and the access control system includes the system control unit with micro a controller connected to a duplex communication channel, and in some of the protected apartments information displays are installed, the video input of each of which is connected to a two-way communication channel - in this case, an internal office telephone connected to the two-way communication channel is included in the equipment of the office premises, as part of the equipment of those protected apartments in which information displays are installed, the second control panels connected to the two-way communication channel are introduced, the system control unit is entered They include an alphanumeric keyboard, a service display, and a series-connected video memory unit, a video digitizer, an image analysis unit, and a decision unit, the video memory unit being connected to a microcontroller, the control inputs of which are connected to the outputs of the alphanumeric keyboard and decision unit, and the outputs are connected to the corresponding control units the inputs of the image analysis unit and the service display, each of the call blocks contains a backlight unit and a presence sensor, the input of which is connected to the channel communication, and the output is connected to the inputs of the backlight unit and the surveillance camera and to the channel of two-way communication, to which the surveillance camera and call keypad are also connected. The image analysis unit contains a video template storage unit, the control input of which is the control input of the image analysis unit, and a background rejection unit, the input of which is the signal input of the image analysis unit, the loop detector and the frame generation unit, the output of which is connected to the signal input of the video template storage unit and to the first input of the comparison unit, the second input of which is connected to the output of the video template storage unit, and the output is the output of the analysis unit d.

The access control method implemented in the specified ACS is the closest analogue of the proposed method.

The undoubted advantage of this ACS is a significantly higher reliability than the analogues described above, as well as a significantly higher probability of correct user identification.

The disadvantage of the closest analogue is the need for constant "adjustment" of ACS to the changing composition of its users (for example, leaving tenants, renting out apartments, changing the composition of persons allowed by the apartment owners). For such an “adjustment” of ACS, it is necessary to visit the service organization specialists at the installation site, which requires additional organizational efforts and material costs.

The present invention seeks to remedy this drawback. To do this, it is proposed to abandon the use of video templates in their traditional form (a set of frames stored in the ACS memory), replacing them with encoded video images of the user's face, obtained in real time by a surveillance camera.

The subject of the invention is a method of video monitoring and access control to a room, in which a video image of the face of a person who wants to go into the room is obtained, the individual features of this person are isolated, digitally generated encoded video image of the features of the person’s face, this encoded video image is stored, an automatic presence control zone is formed, upon detection of the presence of a person in the specified area include a surveillance camera in the field of view of which there is a zone automatic presence control, measure the illumination in the specified area and in insufficient light, for example, illuminate the specified area using an infrared radiation source, convert the signal received by the surveillance camera into a digital form, digitally process this signal, resulting in a current encoded video image of the features of the face a person in the automatic presence control zone, compare it with the stored encoded video image the features of the person’s face, and for a given degree of similarity of the two specified encoded video images, they allow access to the room, and in the absence of a given degree of similarity - block the specified access, and for this room the corresponding address code is set, the coded video image of the features of the person’s face is stored by applying encoded video image on an access identification card containing the address code of this room is equipped with this identification With the access card of the person who wants to go into the room, simultaneously with the formation of the current encoded video image of the features of the person’s face obtained using the surveillance camera, the address code of the given room is read from the access identification card, the read address code of the room is compared with the given one, and if they do not match, they block access to the specified room, with the exception of further identification of the person who wants to go into the room, by video image, and if a esting code to specify the address code of this space is compared current and stored encoded video images.

The objective of the present invention is to provide a technology for video monitoring and access control, which can significantly simplify the practical implementation of access control systems and reduce the cost of its operation.

The technical result provided is that instead of the set of video templates traditionally used for biometric identity identification, video images of the user's face are used, obtained by a real-time surveillance video camera and then encoded using a digital processing unit. As a result of digital processing, an encoded video image of the features of the face of a given user is formed, for example, the distribution of biometric points on his face. The analogue of the video template obtained in this way is compared with the video image of the face of the same user recorded in encrypted form on any medium, for example, on a plastic or cardboard access identification card. The specified carrier with information printed on it, also characterizing the individual characteristics of the user's face, can be considered as a “key” (or “pass”) for access to the guarded room. In view of the constant change and improvement of biometric algorithms, it is desirable that the "key" contains as much primary information as possible for encoding. So, for the implementation of the above "key" can be used:

- specially prepared hologram;

- high resolution encoded image;

- lower resolution encoded compressed image;

- encoded biometric parameters, for example biometric lines and / or points of the user's face.

The absence of the aforementioned “key” from the attacker and the complexity of its falsification make it possible to ensure not less, and in a number of implementation, even higher reliability than the closest analogue, of identifying users and identifying attackers. At the same time, the system installed in the house that implements the proposed method does not require periodic “adjustments” associated with the replacement and addition of a set of video templates (which requires calling specialists from a service organization). It is simpler to operate, since the procedure for allowing users and visitors to the secure premises can be carried out automatically (without the participation of the concierge) - by simultaneously presenting a video template by the user - in the form of his own face and “key” - in the form of an access identification card.

The essence of the invention is illustrated by the drawing, which shows the General structural diagram of the system, which is one of the possible options for implementing the proposed method of video control and access control.

It uses the following notation: 1 - access identification card; 2 - surveillance camera; 3 - presence sensor; 4 - backlight unit; 5 - digital processing unit; 6 - block comparison; 7 - unit for reading identification data; 8 - decoding unit; 9 - block selection; 10 - access control unit; 11 - a crucial unit; 12 - light indicator; 13 - speaker; 14 - microphone.

In the implementation of the proposed method described below, the distribution of biometric points of his face is used as a sign to identify the visitor. This technical solution is implemented, for example, in the system according to the patent MD No. 2649, G08G 1/017, B60R 13/10.

As the system, which is the closest analogue of the claimed invention (patent RU No. 2259019, Н04М 11/00, G08В 15/00), the considered embodiment of the proposed method of video control and access control is intended for deployment in the entrances of an apartment building.

To do this, the entrances of an apartment building are equipped with the equipment of this system, shown in the drawing. The specified equipment contains a surveillance camera 2, a backlight unit 4 and a presence sensor 3, the output of which is connected to the inputs of the surveillance camera 2 and a backlight unit 4. The backlight unit 4 contains a light sensor and an additional light source (for example, infrared), the backlight area of which covers the field of view of the lens of the surveillance camera 2.

Typically, the lens of the surveillance camera 2 has a pin-hole design. This lens design is a special optical system in which the rays are focused at a point located outside the lens (lens with a remote entrance pupil). The pin-hole lens design is vandal proof and contains several lenses selected so that the plane of the diaphragm aperture coincides with the entrance pupil located in front of the front lens of the lens. The pin-hole camcorder is characterized by a high degree of miniaturization, reliable operation and resistance to external influences. Detailed information on such video cameras is presented, for example, on the websites of the COMCOM Electronics company (www.comcom.ru) and the international CCTV magazine (www.cctvfocus.ru). This makes it possible to use an inlet with a diameter of (0.8-2) mm for such a video camera, which can be easily masked in the front panel of the call block or in the building structures of the entrance door of the entrance (Security Systems magazine, December 2003 - January 2004, p.66).

The access control unit 10 is configured to unlock / lock the entrance door of the entrance via an electromagnetic drive. The equipment shown in the drawing also includes a light indicator 12, a speaker 13 and a microphone 14 connected to the selection unit 9.

The indicator light 12 in the simplest case is a two-color (for example, red-green) LED equipped with a control circuit connected to the selection unit 9. Microphone 14 and speaker 13 are the usual components used in a number of standard security systems.

Block 9 selection is a standard switching circuit, which is controlled using the keyboard. Typically, the block 9 of the selection is performed with the possibility of two-way communication with the equipment installed in the apartments. To simplify the consideration of materials of the claimed invention, the keyboard and communication channels of the selection unit 9 with the apartment equipment are not shown in the drawing, since they are not directly related to the essential features of the invention.

An example of a practical implementation of the access control unit 10 and the selection unit 9 is the aforementioned Cyfral video doorphone company "Digital" (www.cyfral.ru).

As a presence sensor 3, for example, either infrared volume sensors widely used in fire alarm systems can be used ("Handbook of Engineering and Technical Workers and Electricians of Fire Alarm Systems", section 3, Moscow, GUVO MVD Russia, 1997 ), or radio wave security detectors ("Linar" or "Fon-3", manufactured by the company "Argus-Spectrum" www.argus-spectr.ru).

In addition to the nodes listed above, the system construction option proposed for implementing the inventive method of video control and access control includes a digital processing unit 5. The input of this unit is connected to the output of the surveillance camera 2, and the output to the first input of the comparison unit 6. The composition of the implementation of the proposed method also includes series-connected identification data reading unit 7 and decoding unit 8, the first output of which is connected to the second input of the comparison unit 6, and the second output is connected to the first input of the selection unit 9. The output of the comparison unit 6 through the decision unit 11 is connected to the second input of the selection unit 9, the output of which is connected to the input of the access control unit 10.

The identification data reading unit 7 (intended, for example, to determine the biometric points of the visitor’s face and the address code of this secured premises) is a reading video camera, in the field of view of which the visitor, who wants to enter the entrance of the house, must use a special holder to place the access identification card 1 . If the access identification card 1 is made on a plastic or cardboard substrate, then the specified holder can be built according to the type of access turnstile used in the metro and in ground transport (ASKP system). The reader’s video camera installed in the identification data reading unit 7 can be made in the form of a miniature CCD matrix widely used in various optoelectronic readers (for example, a computer mouse or fingerprint readers). The CCD matrix reads from the access identification card 1 the encoded distribution of the person’s biometric points and the address code of the secured premises (for example, street code, house number and entrance) and supplies the read information to the input of decoding unit 8.

The decoding unit 8 is a microprocessor device that implements a predetermined algorithm for digital conversion of information contained on the access identification card 1. The decoded digital image received at the first output of the decoding unit 8 should have the same format as the digital image obtained by digitally processing the current video image generated by the surveillance video camera 2.

As noted above, the digital conversion algorithms implemented in the digital processing units 5 and 8 decoding can be of various contents and complexity. The complexity of the algorithms depends on the amount of primary information contained in the "key" ("pass") - access identification card 1. The larger the amount of primary information, the more complex the digital conversion algorithm and the more resistant the system is to the possibility of “electronic hacking”. However, in this case, the practical implementation of the system becomes more difficult and more expensive. Therefore, the design of systems for implementing the proposed method of video monitoring and access control should be a search for a reasonable compromise between the effectiveness and complexity of the technical implementation (cost) of the system in relation to specific options for its practical use.

If the address code recorded on the access identification card 1 does not match the address code of this room contained in the memory of the decoding unit 8, the latter must send the access control unit 10 to block the door of the entrance. Further identification of the visitor by video image will become impossible.

An example of the technical implementation of comparison unit 6 is the correlator used, for example, in correlation-extreme control systems (described in the book by V.K. Baklitsky and others, "Filtering methods of signals in correlation-extreme navigation systems", Moscow, "Radio and communication ", 1986).

The decision block 11 is a digital threshold device, which is an accessory of most digital information processing and computing devices (B. Gold, C. Raider, Digital Signal Processing, Moscow, Sovetskoe Radio, 1973).

Thus, all the nodes shown in the drawing are well known and practiced. Therefore, the possibility of practical implementation of the proposed method is not in doubt.

The proposed method of video control and access control can be implemented as follows.

The functional task of the system that implements the proposed method of video control and access control is to provide unhindered access to a secure room, for example, to the entrance of an apartment building. Users (that is, each resident of this entrance and his proxies) are equipped with an access identification card 1, on which coded information is applied that characterizes the individual characteristics of the user’s face and an address code that reflects information about the location of the room (street code, house number and entrance). To apply information identifying the individual characteristics of the user's face (for example, the distribution of biometric points of the face) to the access identification card 1, a technology for depositing a conductive film coating containing a “picture” of the indicated distribution on the solid substrate (according to the aforementioned MD patent No. 2649, G08G 1/017, B60R 13/10). In this case, the nodes of this coating (signs) corresponding to different electrical resistance correspond to biometric points of the user's face. These coating units are connected to an electrical circuit and connected to a miniature battery inserted into the panel of the access ID card 1. As a result of this, the nodes of the coating are heated to different temperatures, which makes it possible to obtain a fairly stable “picture” of the distribution of biometric points on the user's face using a video camera capable of recording part of the infrared spectrum. Since this "picture" is individual for each user, the access identification card 1 made in this way plays the role of a biometric user "passport". The address code can be applied, for example, in the form of a bar code or using a microchip used in radio frequency identification. When using other possible technologies for manufacturing an access identification card 1, the essence of the invention does not change.

Going to the front door of one of the entrances of an apartment building, a user equipped with such an access card 1 enters the automatic presence control zone. The specified area of automatic presence control is both the area of operation of the surveillance camera 2 and the area of operation of the presence sensor 3, for example, a radio wave volume sensor (which is a device for detecting movements). That is, the zone of automatic presence control is formed, for example, due to the active emission of a high-frequency signal by the presence sensor 3 and is monitored by a surveillance video camera 2.

Upon detecting the appearance of a visitor in the automatic presence control zone, the presence sensor 3 gives switching commands to the surveillance camera 2 and to the backlight unit 4. The backlight unit 4 comprises a light meter, a threshold device, and a radiation source (eg, infrared) to create additional illumination. If the illumination in the zone of automatic presence control is less than the allowable threshold, then in the backlight unit 4 the radiation source is turned on, which ensures normal working conditions of the surveillance camera 2 in the automatic presence control zone.

The surveillance video camera 2 forms a video image of a visitor’s face that appears in the automatic presence control zone. This video image enters the digital processing unit 5, where it is subjected to analog-to-digital conversion and encoding in accordance with a predetermined algorithm consistent with the encoding and decoding algorithm of the information indicated on the access identification card 1. As a result of such coding, the current encoded video image of the features of the visitor’s face is formed at the output of digital processing unit 5 (in this case, the distribution of biometric points on his face). This current encoded video image is supplied to the first input of the comparison unit 6 and plays the same role as the template video in the closest analogue.

It should be noted that the formation in the closest analogue of this kind of template images is a very time-consuming task, since each face must correspond to several reference frames obtained under different viewing angles. Further, these frames should be entered into the computer database installed in the guarded house. This task is solved by a team of qualified specialists with a visit to the installation site, which requires additional costs and organizational effort. In addition, it increases the likelihood of information leakage and, as a result, deception of the system, for example, by presenting a user's photographs by attackers. When changing the composition of users, which happens quite often, the computer database should be adjusted, which also requires the arrival of specialists.

In this method, the user by turning the head can adjust to the stored encoded video image read from the access identification card 1, achieving the required similarity between the current and stored video images and, accordingly, opening the entrance doors. Thus, in the claimed technical solution for the formation and storage of a set of reference frames, as well as their periodic correction is not required.

As noted above, the address code of the protected premises is also applied to the access identification card 1, for example, in the form of a bar code.

The production of an access identification card 1 for the method in question is carried out in a specialized service center, for example, with an insurance company that provides real estate insurance for citizens living in this house. The procedure for making access cards 1 is similar to the procedure for issuing passports (passes). For this, users are photographed using a digital video camera. The video image of the face is entered into a personal computer, which encodes and converts it into a “picture” of the distribution of biometric points on the user's face. This "picture" along with a barcode indicating the address code of the protected premises is applied to the substrate (for example, on a card made of durable cardboard or plastic). The access identification card 1 thus produced is transmitted to the corresponding user, so that he presents it if he wishes to go to the guarded room.

Upon presentation of the access identification card 1, the “picture” of the distribution of the biometric points of the user's face and the address code of the secure room is read into the identification data reading unit 7. After that, in the block 7 of the identification data readout, two code messages are formed:

- stored encoded video image of the features of the user's face (in this case, the distribution of biometric points on his face);

- address code of the protected premises.

These code messages are fed to the input of decoding unit 8. In block 8 decoding read from the access card 1, the address code is checked for compliance with the address code of this room, stored in the memory of block 8 decoding.

If the address code read from the access identification card 1 does not correspond to the address code of the given room, then the decoding unit 8 issues an address code mismatch signal to the selection unit 9. Based on this signal, the selection unit 9 generates a door blocking command for the given room for the access control unit 10. In the simplest case, the access control unit 10 can be made in the form of a relay controlling an electromechanical door lock.

When the above address codes correspond to each other, the stored encoded video image read from the access identification card 1 is converted in the decoding unit 8 into the format of the current encoded video image and fed to the second input of the comparison unit 6, the first input of which receives the current encoded video image from the output of the digital processing unit 5.

A comparison of the two indicated encoded video images in the comparison unit 6 can be carried out, for example, by correlating them with each other, as a result of which a correlation response is generated with an amplitude proportional to the degree of similarity of the two indicated encoded video images.

In the decisive block 11, this response amplitude is compared with a predetermined threshold, upon exceeding which a decision is made about the possibility of a visitor standing in front of the entrance door to a secure room (that is, the possibility of identifying a visitor as one of the users). If a decision is made on the admission, then the corresponding command is supplied to the selection unit 9, which generates an admission executive command for the access control unit 10. When a specified command is received, the relay of the access control unit 10 is activated and the front door can be opened. At the same time, the selection unit 9 in a certain way turns on the indicator light 12 and the speaker 13. Light and sound signals are generated, notifying the user that the door lock is open and he is allowed to enter the guarded room. Such signals can be, for example, the inclusion of the indicator light 12 a uniform green light while the speaker 13 is giving a melodic sound signal.

If the amplitude of the correlation response at the output of the comparison unit 6 does not exceed a predetermined threshold, then the decision unit 11 generates a blocking command, in accordance with which the selection unit 9 generates a door blocking command for the secure room for the access control unit 10, as well as the corresponding commands for turning on the indicator light 12, speaker 13 and microphone 14. The indicator light 12 notifies, for example, using a flashing red LED that identification has not been performed, and voice op is transmitted via speaker 13 Information about the need to change the observation conditions, for example, to change the position of the head. The owner of the access identification card 1, located in the automatic presence control zone, can make several attempts of such identification by changing the angle of observation of his face in front of the lens of the surveillance video camera 2 until he reaches a positive result. In addition, using a microphone 14 and speaker 13, this visitor can try to establish voice communication with the residents of the apartment (if at least one of the users is in the apartment).

Naturally, in the case considered above, when the address code read from the access identification card 1 did not match the address code of the given room, the selection unit 9 should also generate the corresponding commands for turning on the indicator light 12 and speaker 13. In this case, the user is notified by light and sound signals about his mistake in the address of the entrance. Microphone 14 must be blocked in this case: the user who has mixed up the entrances should not tell the residents of the house anything.

In principle, there may be other possible operations suitable for providing the user with access to a secure room. Such operations include a set of a secret code on the keyboard of block 9 of choice, video communication via an intercom system and the like. These operations can be carried out in the system under consideration in the same way as in the closest analogue of the patent (the technical means used are not shown in the drawing). From the point of view of the subject of the invention, these operations are not essential and therefore are not considered in the framework of this invention.

Thus, the above set of common and closest distinguishing features allows us to solve the problem of creating technology for automatic control and access control, which can significantly simplify the practical implementation of access control systems and reduce the cost of its operation.

The provided technical result consists in the fact that the observations obtained by the video camera 2 and then encoded using the digital processing unit 5 of the video image of a person’s face are used as video templates. Moreover, the system that implements the proposed method does not require periodic "adjustments" associated with the replacement and addition of a set of video templates (for which a call to the specialists of the service organization is necessary). It is simpler to operate, since the procedure for admitting visitors to the secure premises can be carried out automatically.

Claims (1)

The method of video monitoring and access control to the room, in which a video image of the face of a person who wants to go into the room is obtained, the individual characteristics of this person are highlighted, a digitally encoded video image of the features of the person’s face is extracted, this encoded video image is stored, an automatic presence control zone is formed, when presence is detected person in the specified area include a video surveillance camera, in the field of view of which is the automatic control zone measures the illumination in the specified area and, in insufficient light, for example, illuminates the specified area with the help of an infrared radiation source, converts the signal received by the surveillance camera into a digital form, digitally processes this signal, resulting in the current encoded video image of the features of a person’s face, located in the automatic presence control zone, compare it with the stored encoded video image of the features of a person’s face and for a given degree of similarity of the two indicated coded video images, a person is allowed to enter the room, and in the absence of a given degree of similarity, they block the specified access, characterized in that they set the corresponding address code for the room, the encoded video image is stored in a person’s face by applying the encoded video image to the identification an access card containing the address code of this room is equipped with this access card UPA of a person who wants to go into the room, simultaneously with the formation of the current encoded video image of the features of the person’s face obtained using the surveillance camera, the address code of this room is read from the access identification card, the read address code of the room is compared with the given one, and if they do not match, they block access to the specified room with the exception of further identification of the person who wants to go into the room, according to the video image, and if the read address code matches the task nym address code of this space is compared current and stored encoded video images.