RU2396537C1 - Method for complex monitoring people on check points - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: fingerprint identification and gas-analytical detection of trace amounts of substances on fingerprints is carried out. One finger is pressed onto a contact surface and trace amounts of substances are transferred from the finger to the contact surface. The fingerprint is read and compared with specimens from a fingerprint database. The contact surface containing trace amounts of semi-volatile substances is moved to the input of the gas analyser. The contact surface is then heated and an air sample containing substances evaporated from the contact surface is fed into the gas analyser. When the moving contact surface is pressed, it moves in way which facilitates access of the finger to the surface of a fingerprint reader. The finger is then fixed on the surface of the reader. Collection of air samples containing highly volatile and volatile substances takes place simultaneously with fingerprint reading.

EFFECT: possibility of detecting trace amounts of high volatile and volatile substances, increased reliability of fingerprint identification.

Description

The invention relates to the field of integrated control of people at checkpoints and can be used for fingerprint identification and gas-analytical detection of trace amounts of substances to be controlled (for example, explosive, narcotic) on the fingers of a person.

A known method for detecting non-volatile substances, including: the passage of a person through a portal that contains several detectors; air sampling over a person using an ion mobility spectrometer (SIP) for effective primary detection of low volatiles; air sampling over a person using a surface-acoustic device for the secondary detection of low volatiles and confirmation of the fact of detection by the ion mobility spectrometer [US patent No. 6610977; 08/26/2003].

The disadvantages of this technical solution are:

- low sensitivity, limited by a strong dilution of vapors of low volatiles in a large volume of air of a portion of the portal above a person;

- a long examination time for one person, due to the need to pump a large amount of air of the portal over the person;

- limiting the use of the temperature range, because if the ambient temperature is close to or higher than the temperature of the person’s body or clothing (if the clothing has a dense structure and significantly limits heat transfer from the body), the sultan is not formed;

- significant influence of uncontrolled convective air flows (for example, wind, draft, etc.).

In addition, in this method there is no fingerprint control that allows identification of the person being examined.

Biometric identification methods are also known, including reading a fingerprint and comparing the obtained fingerprint with a sample stored in a database according to certain criteria [RF patents No. 2320261, publ. 03/27/2008; No. 2195020, publ. December 20, 2002].

A limitation of these methods is the lack of additional gas analytical control of the presence of traces of hazardous substances (for example, explosives, drugs) that can be on the fingers.

Closest to the proposed is a method of fingerprint identification and detection of trace amounts of non-volatile substances to be controlled on the fingers, implemented in the device [Application WO 2006/026107 A2 of 08/10/2005], which includes the placement of at least one finger on a contact surface having a slit hole, leading to the transfer of trace amounts of non-volatile substances to the contact surface, reading a fingerprint through a slot in the contact surface, comparing fingerprint analysis with fingerprint database samples, moving the contact surface containing trace amounts of low volatiles to the gas analyzer inlet, heating the contact surface of the movable element, transporting air containing the substances vaporized from the contact surface to the gas analyzer, analyzing the sampled air and generating a signal when detection of substances to be controlled.

The disadvantages of this method are: squeezing the papillary line when scanning fingerprints through a slot in the contact area; the inability to ensure strict directivity, uniformity of movement and the optimal distance to the optical system when the finger moves across the gap; and, as a consequence of this, the difficulty of combining sequentially read bands of a papillary pattern. These shortcomings lead to critical distortions of the papillary pattern and increase the likelihood of its erroneous reading. The disadvantage of the prototype method is the inability to register subject to control volatile and volatile substances (for example, nitroglycerin, para-mononitrotoluene).

The objective of the invention is to provide a method for comprehensive control of people at checkpoints, which allows for fingerprint identification with a high degree of reliability, as well as gas detection of trace amounts of volatile, volatile and low volatile substances (e.g. explosive, narcotic) on the fingers of a person.

The technical result of the invention is to increase the reliability of fingerprint identification of a person’s identity and the possibility of detecting on the hands of a person subject to control trace amounts of volatile and volatile substances (e.g. nitroglycerin, para-mononitrotoluene).

The specified technical result is achieved by the fact that in the method of complex control of people at checkpoints, including fingerprint identification and gas-analytical detection of trace amounts of substances on the fingers of a person’s fingers, in which at least one finger is pressed onto the contact surface, leading to transfer trace amounts of volatile, volatile and non-volatile substances from the fingers to the contact surface, fingerprint reading, comparison obtained by scanning from a fingerprint with samples of the fingerprint database, moving the contact surface containing trace amounts of low volatiles to the gas analyzer inlet, heating the contact surface, supplying an air sample containing substances vaporized from the contact surface to the gas analyzer, analyzing the sample taken in the gas analyzer, and generating a signal when detection of substances to be controlled, according to the invention, the movable contact surface is displaced by pressing it, providing finger access hands to the surface of the fingerprint reader, and place the finger on the surface of the fingerprint reader. In addition, from the place of installation of the finger on the surface of the fingerprint reader, simultaneously with the fingerprint, an air sample is additionally taken to detect trace amounts of volatile and volatile substances to be controlled.

An increase in the degree of reliability of fingerprint identification of a person’s identity by eliminating the crushing of papillary lines when reading fingerprints is achieved by installing the finger directly on the fingerprint reader. Gas-analytical detection of trace amounts of volatile and volatile substances is achieved by taking an air sample from the installation site of the finger on the fingerprint reader.

The method is as follows. When a person passing control at the checkpoint presses at least one finger on the movable contact surface of the device for fingerprint identification and gas detection of trace amounts of substances to be controlled, it is displaced, while the finger is installed directly on the fingerprint reader and fingerprint is being read. At the same time as fingerprint scanning, an air sample is taken to detect trace amounts of volatile and volatile substances to be controlled. The selected air sample is fed through a pipeline to a gas analyzer. If volatile and volatile substances to be monitored are detected in the selected air, the gas analyzer gives an alarm. In the absence of an alarm signal, the fingerprint obtained during scanning is compared with the fingerprints stored in the database. Simultaneously with the process of identification of a person’s personality, a gas-analytical detection of low volatiles is carried out. To do this, move the contact surface containing trace amounts of low volatiles to the inlet of the gas analyzer, heat the contact surface, supply an air sample containing low volatiles vaporized from the contact surface to the gas analyzer and analyze the sample. If vapors of substances to be controlled are detected, the gas analyzer generates an alarm.

The proposed method can be implemented in a device for fingerprint identification and gas-analytical detection of trace amounts of substances on the fingers of a person’s hands at checkpoints, for example, described in the application WO 2006/026107 A2 of 08/10/2005. For this, a sample containing volatile and volatile substances from the place of sampling on the fingerprint reader into the gas analyzer by known means (for example, through a stainless steel tube, one end of which is brought to the installation site finger, the other is connected to the input of the gas analyzer), and the contact area should be made with the possibility of bias.

Claims (1)

A method of comprehensive control of people at checkpoints, including fingerprint identification and gas-analytical detection of trace amounts of substances on the fingers of a person’s hands at checkpoints, where at least one finger is pressed onto the contact surface and the trace amounts of substances are transferred from the finger to the contact surface, fingerprint reading, comparison of the fingerprint obtained during scanning with fingerprint database samples, moving the contact surface and containing trace amounts of non-volatile substances to the inlet of the gas analyzer, heating the contact surface, supplying to the gas analyzer a sample of air containing substances vaporized from the contact surface, analyzing the selected sample in the gas analyzer and generating a signal when detecting substances to be controlled, characterized in that when you press the movable contact surface is displaced, providing finger access to the surface of the fingerprint reader, and set the finger on the surface of the count tyvatelya simultaneously with fingerprint reading further produce sampling air containing volatile and volatile substances from the installation site finger on the fingerprint reader surface.