RU2721315C1 - Highly secure access control system - Google Patents

Abstract

FIELD: control means.

SUBSTANCE: invention relates to means of controlling access to objects. In system using switch and access control module as verification features of refractive, refracting properties of non-duplicated objects of random shape, transparent for electromagnetic radiation with a certain wavelength, randomly oriented relative to the electromagnetic radiation beam. As method of recognition of unique refractive properties of objects of random shape and, accordingly, verification of key, direction is used through transparent object or objects of random shape, included in the beam of the electromagnetic radiation beam from the electromagnetic radiation source placed in the access control module by directing said beam to the electromagnetic radiation sensor, which enables to fix for the subsequent analysis the characteristic features of said beam, and thus, verify the key for making a decision on granting access or denial of access to the protected object.

EFFECT: technical result is higher security of objects.

7 cl, 3 dwg

Description

1. The technical field to which the invention relates.

     The present invention relates to the field of organization of highly protected access control to a protected object, and more specifically, to the field of methods and devices using, as a verification feature, for making a decision on the admission or refusal to admit to the protected object unique refractive properties of random objects transparent to electromagnetic radiation with a specific wavelength. At the same time, both virtual and physical objects, such as computer bases, restricted access rooms in buildings, access control systems for controlling mechanisms, etc. can act as a protected object.

2. The level of technology

     Existing access control systems based on traditional keys with a verification feature in the form of a key form have been used for hundreds of years. They are easy to manufacture and use, but do not provide sufficient security, as they allow copying or imitation of a key. Existing computer access control systems, based on the user entering certain codes, are easy to use, but can be bypassed by intruders with sufficient knowledge in the computer field. In addition, they require users to adhere to strict rules for the selection and storage of codes, which, given the human nature, is difficult to ensure. Massive technologies for organizing access control using magnetic cards and radio frequency (RFID) tags are convenient for users, but do not provide a high degree of protection due to the ability to copy or simulate the characteristics of cards and tags.

     Recently actively developing access control systems based on the recognition of individual characteristics of a person can be misled by imitating such signs, because these signs can be found out in one way or another and then copied or imitated.

     Thus, we can conclude that the key drawback of existing access control systems in terms of ensuring a high degree of security is the key itself, which has certain verification features. It can be either a traditional key, or a certain label, or some signs of a person, or some signs of an object. Moreover, the less significant characteristics of the key the attacker can determine, having this key at his disposal, for subsequent copying or simulation, the more secure the entire access control system will be. An additional security factor may be the impossibility of either the extreme complexity of copying or simulating verification features of a key.

     There are also access control systems based on the recognition of the optical characteristics of certain objects. An example is US patent US5283431A dated 01/02/1994, where the key is made of a transparent material with a gradient refractive index, while a light beam is directed through the transparent material, which, when passing through the material, is deflected by a certain angle and then hits a specific point on the receiving photosensitive panel Thus, the system repeats the principle of operation of a traditional key, a certain element of the key shape must act on a specific matching lock shape. However, the system does not look sufficiently secure, as having the key in hand, an attacker can determine the angle of deviation of the light beam at certain points of the transparent material and thus determine the position of the desired point of the receiving photosensitive panel, acquiring the ability to copy or simulate the key in the sense of a key-lock system.

     Another example, using the optical properties of an object as a verification feature of a key, is US Pat. No. 9,274,508B2 dated March 1, 2016, which describes a method and device of a key and lock system, where the key contains a source of a light beam and a refracting prism with unique refractive properties, placed with the possibility of transmitting the light beam through the prism, and on the lock there is a photosensitive panel to which a beam of light from the key is directed, followed by a comparison of the light picture that appears on the panel with authorized pictures. A visible drawback of the system in terms of security is the key in which the light beam source and the refracting prism are fixed relative to each other. Thus, having a key in hand, an attacker can copy the desired light picture created by a beam of light refracted by a prism to mislead the key-lock system.

3. Disclosure of the invention

     The aim of the present invention is to provide a relatively simple access control system, at the same time having a very high degree of security. The specified system can be used to organize access control to computer databases, to control access to premises and objects, to control actions related to the implementation of decisions by persons with a high degree of responsibility, and other purposes.

     This is achieved by the fact that the access control system includes a key and an access control module and is based on recognition by means of an access control module of a refractive element with unique refractive (refractive) properties, used as a verification feature of the key, where the refractive element is one or more combined objects of irregular random shape, fixed on the key in a random spatial position relative to each other and relative to the key body, which ensures unique refractive properties of the refractive element, by directing the electromagnetic radiation beam through the specified refractive element from the electromagnetic radiation source located in the access control module, the material of the refractive element is transparent to the electromagnetic radiation generated by the electromagnetic radiation source in the access control module, and the refractive index of the surrounding refraction the ionic element of the medium differs from the refractive index of the material of the refractive element, with the projection of a beam of electromagnetic radiation with unique characteristics of the spatial distribution of the intensity of electromagnetic radiation formed by the said electromagnetic radiation beam, refracted by the refractive element, onto the electromagnetic radiation sensor, with the fixation and analysis arising on the sensitive surface of the specified sensor a unique refraction picture for matching in a pre-created database of authorized refraction pictures, each of which in turn corresponds to an authorized refraction element used as a key, with subsequent granting of access or denial of access to the protected object, depending on the correspondence of the unique refraction picture that arises on the sensitive surface of the specified sensor, one of the authorized refractive images stored in the said ba the data. In this case, sources generating electromagnetic radiation with different wavelengths, such as a laser, an infrared radiation source, a source of visible light, can be used as the source of electromagnetic radiation, and fragments of crushed glass can act as irregularly shaped objects that make up the refractive element.

     The high degree of security of the proposed access control system is explained by the fact that copying a refractive element consisting of one or several random irregular elements randomly combined with each other seems to be an almost insoluble task, in addition, the source of the electromagnetic beam is outside the key, and the initial position its relative to the refractive element of the key is not known to the attacker, thus, even having a key with a refractive element in hand, a potential attacker will not be able to create the required refractive picture for copying or imitation. In addition, to further increase the level of protection, the electromagnetic radiation beam can be directed through the refractive element of the key from different directions, and thus, the verification feature of the key is not one refractive picture created by the refracted refractive element by the electromagnetic radiation beam, but a series of pictures taken with different projections refractive element relative to the beam of electromagnetic radiation.

4. Brief description of drawings and graphic materials

     Figure 1 presents a schematic diagram of one embodiment of a highly secure access control system, with a key (1), including a refractive element (2), and an access control module (3), where are indicated:

- means for fixing the position of the key in the access control module, allowing to direct the beam of electromagnetic radiation from the source of electromagnetic radiation through the refractive element of the key with several fixed or dynamically changing mutual positions of the beam of electromagnetic radiation and refractive element (4), (5),

- means for adjusting and fixing the initial position of the electromagnetic radiation beam from the electromagnetic radiation source relative to the key placed in the access control module of the refractive element (6),

- a source of electromagnetic radiation in the form of a laser diode (7),

- electronic processor (8),

- electromagnetic radiation sensor (9) with a sensitive surface (10),

- access control module housing (11)

     The diagram also shows the actuator (12), the electromagnetic radiation beam (13) emitted by the laser diode, a unique refractive picture (14), and the electromagnetic radiation beam (20).

      Figure 2 presents a General view of the key (1) with a refractive element (2), composed of fragments of crushed glass (15). The key handle (16), the key shaft (17) with the key position fixation element (18) in the access control module, and the transparent screen (19) protecting the refractive element from external influences are also indicated.

     In FIG. 3 shows the access control module (3), where are indicated:

- means for fixing the position of the key in the access control module, allowing to direct the beam of electromagnetic radiation from the source of electromagnetic radiation through the refractive element of the key for several fixed or dynamically changing mutual positions of the beam of electromagnetic radiation and refractive element (4), (5),

- means for adjusting and fixing the initial position of the electromagnetic radiation beam from the electromagnetic radiation source relative to the key placed in the access control module of the refractive element (6),

- a source of electromagnetic radiation in the form of a laser diode (7),

- electronic processor (8),

- electromagnetic radiation sensor (9) with a sensitive surface (10),

- housing of the access control module (11).

5. The implementation of the invention

     The proposed high-security access control system is based on the phenomenon of refraction (refraction), i.e. on a change in the direction of the beam (wave) that occurs at the boundary of two media through which this beam passes, or in one medium, but with changing properties, in which the wave propagation velocity is not the same. The core of the system is an electromagnetic radiation source (7) and a refractive element (2) with unique refractive properties, which serve as a verification feature of a key in the sense of a key-lock system through which a beam of electromagnetic radiation (13) is directed from a source (7), while the material the refractive element is transparent to the electromagnetic radiation generated by the electromagnetic radiation source in the access control module, and the refractive index of the medium surrounding the refractive element is different from the refractive index of the material of the refractive element. At the same time, to ensure a high degree of security of the access control system, the refractive element is placed on the key (1), and the electromagnetic radiation source (7) is placed in the access control module (3), thus, having the key in hand, it is impossible to determine the angle and direction of passage through refractive element of the key of the beam of electromagnetic radiation (13).

     The refractive element includes one or more combined objects of irregular random shape, fixed on the key in a random spatial position relative to each other and relative to the key body, which ensures the unique refractive properties of the refractive element. In a particular case, the refractive element consists of one or several fragments of crushed glass (15), combined with each other and with the key body in a random spatial position, so when the beam (13) passes through a fragment or fragments of crushed glass, the beam is repeatedly refracted randomly the glass surfaces located relative to each other and at the output form a diverging beam of electromagnetic radiation (20) with a unique structure of the spatial intensity distribution.

     When the refractive element (2) of the key is placed in the access control module (3), a beam of electromagnetic radiation is directed through the refractive element, in particular, the laser beam from the laser diode (7), which, after being refracted by the refractive element, forms a beam of electromagnetic radiation (20), which creates on the sensitive surface (10) of the electromagnetic radiation sensor (9), a unique refraction pattern (14), which is analyzed by an electronic processor (8) for matching in the previously created database of authorized refraction patterns, each of which in turn corresponds to an authorized refraction key element , with subsequent granting of access or denial of access to the protected object, depending on the correspondence of the unique refraction pattern that appears on the sensitive surface of the specified sensor to one of the authorized refraction patterns stored in the said database.

     To increase the security of the system, each access control module has means for adjusting and fixing (6) the initial position of the electromagnetic radiation beam from the electromagnetic radiation source relative to the refractive key element placed in the access control module, thereby allowing each access control module to be given unique properties in the sense of a key- the lock, while the beam of electromagnetic radiation is directed through the refractive element of the key at different angles, varying from module to module. In a particular case, the tool (6) is made in the form of a rotary platform with a laser diode (7) and a sensor (9) placed on it, while turning the platform, the refractive element of the key remains in a position in which the beam (13) passes through the refractive element, and the resulting beam (20) hits the sensitive surface (10) of the sensor (9).

     In order to further increase the security of the system and the recognition accuracy of the refractive key element, the access control module (3) includes means for fixing the position of the key (4), (5), which allow directing the beam (13) through the refractive key element for several fixed or dynamically changing mutual the positions of the beam and the refractive element of the key, while maintaining the possibility of the beam (20) getting onto the sensitive surface (10) of the sensor (9), while the sensor (9) captures not a single refractive picture (14), but a series of several unique refractive patterns that arise on the sensitive surface of the sensor at different relative positions of the beam (13) and the refractive element (2), with the analysis by the electronic processor (8) of the obtained series of unique refractive patterns to find a match in the database of the series of unique refractive patterns.

     Obviously, the above description is a description of one of the particular cases of the invention, which may have other embodiments that do not change the distinguishing features and essence of the invention.

Claims (15)

1. A highly secure access control system based on recognition, using the access control module, of a refractive element with unique refractive, refractive properties, used as a verification feature of a key, and including: a) a key that includes a refractive element with unique refractive properties, where the refractive element is one or more combined objects of irregular random shape, fixed on the key in a random spatial position relative to each other and relative to the key body, which ensures unique refractive properties a refractive element, while the material of the specified object or objects of irregular random shape that make up the refractive element is transparent to electromagnetic radiation with a certain wavelength, and the refractive index of the surrounding environment refractive element is different from the refractive index of the material of the specified object or several combined objects of irregular random shape, constituting the refractive element, while the refractive element is placed on the key in a position that allows the passage of an electromagnetic beam directed from the outside through it radiation with a specific wavelength with the output of the key of the beam of electromagnetic radiation with unique characteristics of the spatial distribution of the intensity of electromagnetic radiation formed by said electromagnetic radiation beam refracted by said refractive element, b) access control module, including: a source of electromagnetic radiation with a certain wavelength, generating a beam of electromagnetic radiation directed through the said refractive element to obtain a beam of electromagnetic radiation with unique characteristics of the spatial distribution of the intensity of electromagnetic radiation formed by said electromagnetic beam refracted by said refractive element, means for fixing the position of the key in the access control module, allowing to direct said beam of electromagnetic radiation from the source of electromagnetic radiation through said refractive element of the key, an electromagnetic radiation sensor with a sensitive surface arranged in the direction of propagation of said electromagnetic radiation beam, with a function of fixing a unique refraction pattern arising on said sensor surface created by said electromagnetic radiation beam, c) a database of authorized refractive patterns, each of which corresponds to one of the authorized keys with a refractive element having unique refractive properties, d) an electronic processor with the function of comparing and searching for the correspondence of a unique refraction pattern arising on the sensitive surface of the electromagnetic radiation sensor with authorized refraction patterns stored in a database of authorized refraction patterns, e) an actuator with the function of granting or refusing to provide access to the protected object, depending on the correspondence of the unique refraction pattern that appears on the sensitive surface of the electromagnetic radiation sensor to one of the authorized refraction patterns stored in the said database. 2. The system according to claim 1, characterized in that in order to increase security and increase the recognition accuracy of the refractive key element, it includes means for fixing the position of the key in the access control module, which allow directing the beam of electromagnetic radiation from the source of electromagnetic radiation through the refractive key element at several fixed or dynamically changing mutual positions of the electromagnetic radiation beam and the refractive element, while maintaining the possibility of the mentioned electromagnetic radiation beam formed by the said electromagnetic radiation beam refracted by the said refractive element on the said sensitive surface of the electromagnetic radiation sensor, while the electromagnetic radiation sensor detects a series of several unique refractive patterns arising on the sensitive surface of the sensor at different relative positions of the beam of electromagnetic radiation and refractive ele ment, with the analysis by the electronic processor of the indicated series of unique refractive patterns for matching in the previously created database of authorized series of refractive patterns, with subsequent granting of access or refusal of access to the protected object depending on the correspondence of a series of several unique refractive patterns arising on a sensitive surface the specified sensor, one of the authorized series of refractive images stored in the said database. 3. The system according to claim 1, characterized in that in order to make each access control module unique, it includes means for adjusting and fixing the initial position of the electromagnetic radiation beam from the electromagnetic radiation source relative to the key placed in the access control module. 4. The system according to claim 1, characterized in that a laser is used as a source of electromagnetic radiation located in the access control module. 5. The system according to claim 1, characterized in that an infrared radiation source is used as an electromagnetic radiation source located in the access control module. 6. The system according to claim 1, characterized in that a visible light source is used as an electromagnetic radiation source located in the access control module. 7. The system according to claim 1, characterized in that the object or objects of irregular random shape constituting a refractive element are fragments of crushed glass transparent to electromagnetic radiation generated by the electromagnetic radiation source in the access control module.

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