RU2505862C2 - Functioning method of card-reader for firmware, card-reader for implementation of method, and optoelectronic sensor for card-reader - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: method consists in recording, reading and reproduction of information from memory cards 2 of different standards and further use of the same information during electronic interaction with the corresponding firmware. Peculiar features consist in the fact that an electronic device of card-reader 1 is equipped with an optoelectronic sensor functionally being a device for memory card 2 authenticity identification by means of detection of at least one protective mark made on it. For that purpose, the section of memory card 2, which has the protective mark, is arranged in sensor field of view. Besides, the above recording, reading and reproduction of information is performed after the above sensor registers positive result of authenticity identification, which is obtained by means of the corresponding processing of data file formed during detection. Card-reader 1 is provided for implementation of the method, the electronic device of which is equipped with an optoelectronic detection sensor, and one of possible versions of certain design of the above sensor is provided.

EFFECT: improving quick action and accuracy of reading.

3 cl, 6 dwg

Description

The invention relates to optical instrumentation, in particular to technical means and methods for non-destructive testing of the authenticity of the studied objects, and can be used primarily to identify the authenticity of memory cards of various standards used in card readers for software and hardware, such as ATMs.

A card reader is a device for recording, reading and reproducing information from memory cards of various standards, as well as other electronic cards of various purposes, in particular smart cards and flash cards.

The most common are:

- universal card readers, often containing several different connectors and connected via USB to a general-purpose computer;

specialized card readers (card readers) associated with equipment using the appropriate type of card, for example, an ATM card reader, a card reader in ASKP and subway checkpoints (http://en.wikipedia.org/wiki/Kapдпепер, 2011)

The classic card reader card reader is equipped with four memory card slots and an LED power indicator (some models are also equipped with an additional LED activity indicator that allows you to visually control read and write operations (http://shkolazhizni.ru/archive/0/n-13170/, 2008).

Thus, the hardware-software tool, in particular an ATM, in its classic design is a computer combined with a safe. An ATM computer is usually equipped with an input device, a display, a card reader (for reading data from a plastic card), a presenter (for issuing a cache) and a check / journal printer. Perhaps the most expensive device in an ATM is a dispenser device designed for taking / submitting banknotes, verifying them for authenticity and sorting. The ATM is connected to the processing to ensure the possibility of exchanging data with the bank (http://www.xaker.ru/post/37991. 2007).

The general principle of the operation of an ATM (and, accordingly, the card reader used in it) when working with a bank card with a magnetic strip is as follows (the principle of operation with microprocessor cards may vary).

After loading the card into the card reader of the ATM, the card holder is invited to enter a secret code (PIN) for authorization of the card holder. The following is a selection of available operations (when choosing an operation, a PIN code may also be requested, it depends on the specific settings of specific ATMs). After selecting the operation, the ATM encrypts the information received (the contents of the magnetic strip / chip, the entered PIN code, the requested operation) and transfers the data to the processing center of the acquiring bank (the bank serving this ATM). The acquiring bank sends a request for the operation to the payment system. The payment system routes the request to the issuing bank (the bank that issued the card) and, after receiving consent or refusal (authorization code), sends the ATM instructions to execute or reject the request. Moreover, all actions to send a request, process a response to a request, and issue / receive money from cassettes are recorded, which allows an investigation to be carried out if the operation is disputed.

In recent years, along with the development of the ATM network, the number of ATM fraud cases has been growing - the illegal use of ATMs to steal money from the accounts of plastic card holders.

There are several dozens of different methods of organization and technological level of misappropriation of money from another person's card account using ATMs.

One of them is the following.

Copy the magnetic strip using fake readers. Such devices are installed on the ATM (the reader is placed on the card reader slot, and the real keyboard is covered with an additional keyboard. When using such a “modified” ATM, the reader stores data from the cards inserted into the ATM card reader and the keyboard uses PIN codes. The stolen data is sufficient for production a duplicate card and withdrawal through this duplicate of money from the owner’s account (http://ru.wikipedia.org/wiki/Bankomat, 01/30/2012).

In connection with the foregoing, it became necessary to equip card readers with sensing detection devices that exclude access to information stored on a memory card without first confirming the authenticity of this card with a touch device, but directly with memory cards with security features (tags) read by the mentioned sensor device.

An important class of security features is optically recognizable features, which primarily include features that use phosphors, which when irradiated with optical radiation generate luminescent (in particular, fluorescent or phosphorescent) radiation, i.e. luminesce, with a given wavelength and characteristic spectrum.

In this case, optical radiation refers to electromagnetic radiation in the ultraviolet, visible or infrared regions of the electromagnetic spectrum.

To verify the authenticity, the object under study at the location of the security feature must be irradiated with optical radiation with a given spectral resolution. In this case, using the appropriate sensor detecting device, you can check whether the optical radiation excites luminescence in predetermined places on the studied object. For this, the optical radiation emitted from the investigated (detected) object is subjected to spectral analysis. Such verification should occur, firstly, rather quickly and, secondly, should be provided with relatively low (simple) hardware so that the sensor devices through which authentication is performed, in particular, according to luminescent signs, would be can be more compact, but at the same time they would have a spectral resolution and sensitivity sufficient to recognize the presence of a characteristic luminescence spectrum of a security feature (RU, No. 2409862, 2011).

Closest to the claimed technical solutions are the well-known from the prior art method of functioning of a card reader for software and hardware and a card reader for its implementation, which are as follows.

According to the known method, the operation of a card reader for a software and hardware means consists in recording, reading and reproducing information from memory cards of various standards and the subsequent use of this information in the process of electronic interaction with the corresponding software and hardware (http://www.xaker.ru/post / 37991, 2007).

According to the known object “device”, designed to implement the above method, a card reader for software and hardware contains an electronic device that is functionally a means of recording, reading and reproducing information from memory cards of various standards for subsequent use of this information in the process of electronic interaction with the corresponding software -hardware (http://www.xaker.ru/post/37991, 2007).

Closest to the claimed technical solution according to claim 3 of the claims (optoelectronic sensor) is an optoelectronic detection sensor for a card reader, containing:

- lighting means, made in the form of an electromagnetic radiation generator that generates a radiation flux in a given spectral band, and which is functionally a source of irradiation of a surface area of the object under study - a memory card equipped with a luminescent protective mark;

- optoelectronic photodetector system, comprising at least a photodetector of electromagnetic radiation generated by the corresponding surface section of the studied object, made in the form of a photodiode sensitive to radiation in a given spectral band, which is functionally a means of recording the luminescence radiation mentioned;

- as well as a processing unit, which is functionally a means of verifying the authenticity of the object under study based on processing, conversion (mainly into digital form) and subsequent comparison in accordance with a given program according to the yes-no algorithm of the values of the characteristic parameters generated in the process of irradiation with the corresponding surface area of the studied object of luminescence radiation recorded by said photodetector, with a similar values corresponding to the genuine object, which are stored in the memory unit of the processing unit (RU, №2169393 C2 2000 YG).

The disadvantages of this prior art device include the complexity of the design and the relatively large overall dimensions that limit its use due to the fact that there is no constructive ability to integrate this sensor device into existing software and hardware without modifying their standard design.

Thus, the disadvantages of the above-described solutions known from the prior art (both in relation to the object “method” and in relation to objects “device”) include limited functionality due to the inability to implement an additional function for identifying the authenticity of memory cards used in card readers for hardware and software, such as ATMs.

The claimed technical solutions were based on the task of expanding the functionality of card readers designed to be used in conjunction with appropriate software and hardware, for example, ATMs, by providing them with the possibility of implementing an additional function to identify the authenticity of memory cards of various standards used in card readers for software and hardware, such as ATMs.

Accordingly, the technical result is to increase the reliability of the claimed objects by providing the possibility of their implementation of an additional function of identifying the authenticity of memory cards of various standards used in card readers.

To achieve the specified technical result, it is proposed to use an optoelectronic sensor for a card reader of a developed design. The optoelectronic sensor contains a lighting device made in the form of an electromagnetic radiation generator that generates a radiation flux in a given spectral band, and is functionally an irradiation source for a portion of the surface of the object under study - a memory card equipped with a luminescent protective mark, an optoelectronic photodetector system, including at least a photodetector generated by the corresponding surface area of the investigated object of electromagnetic radiation, made in the form of photodio a sensitive to radiation in a given spectral band, which is functionally a means of recording the aforementioned generated luminescence radiation, as well as a processing unit, which is functionally a means of verifying the authenticity of the object under study, based on processing, conversion mainly to digital form and subsequent comparison in in accordance with a given program according to the yes-no algorithm of the values of the characteristic parameters generated in the process of irradiation with the corresponding surface area of the studied object of luminescence radiation recorded by the said photodetector, with similar values corresponding to the original object, which are stored in the RAM module of the processing unit. In addition, according to the invention, the electromagnetic radiation generator is structurally spatially organized in the form of a module, consisting mainly of two LEDs of the same type, which are spatially arranged symmetrically with respect to the main optical axis of the photodiode of the photodetector system with the possibility of intersection of their main optical axes with the mentioned axis of the photodiode in one zone lying on a plane corresponding to the irradiated surface of the investigated object, with the possibility of functioning in a pulsed mode with of different pulse durations, the illuminant and the photodetector of the photodetector system are designed to detect at least one discrete luminescent mark of the object under study, the phosphor particles of which have the given kinetic characteristics of luminescence and absorption and reflection properties in the spectral band, at least partially overlapping by spectral bands radiation of the irradiating LEDs of the lighting means and the sensitivity of the photodetector, and as nd characteristic parameters of the corresponding portion of the generated surface of the object of the luminescence radiation detected by said photodetector, use the difference values of said luminescence radiation generated in the course of the long and short pulses, generated by the lighting means.

It is also proposed to use a card reader for software and hardware containing an electronic device that is functionally a means of recording, reading and reproducing information from memory cards of various standards for the subsequent use of this information in the process of electronic interaction with the corresponding hardware and software tool to achieve the indicated technical result. In addition, according to the invention, the electronic device of the card reader is equipped with an optoelectronic sensor, the device of which is shown earlier, while the electronic device equipped with the said sensor is structurally and functionally arranged to carry out said write-reading and reproducing information only after the said sensor has registered a positive authentication result of the memory card , by processing according to a given program according to the yes-no algorithm of the data array, formed in the process of detecting a security label.

Also, to achieve the specified technical result, it is proposed to use the method of functioning of a card reader for software and hardware. According to the method, information is recorded, read and reproduced from memory cards of various standards, followed by the use of this information in the process of electronic interaction with the corresponding software and hardware, and according to the invention, the developed optoelectronic sensor is introduced into the card reader, the construction of which is given earlier, the memory card section with a protective mark is placed in the field of view of the sensor; wherein said recording, reading and reproduction of information is carried out after the said sensor registers a positive authentication result, which is obtained by appropriate processing of the data obtained during the detection process.

Further, the claimed inventions are described in more detail in combination with preferred options for their implementation with reference respectively to the accompanying graphic materials, which illustrate the following.

FIG. 1 is a general side view of the claimed card reader, FIG. 2 is a view E of FIG. 1, FIG. 3 is a cross-sectional view of the claimed card reader of FIG. 1, FIG. 4 - callout I of FIG. 3, FIG. 5 is an optical schematic diagram of an optoelectronic sensor; FIG. 6 (a) —the cycle of irradiation (excitation) and measurement of spectral characteristics (luminescence kinetics) of the section of the object under study — a plastic card (at the location of the protective mark) in a cyclic mode, i.e. after a short and long pulse of lighting means, FIG. 6 (b) is the total luminescence signal and the characteristics of the photodetector of the photodetector system (on the left after a short pulse, on the right after a long pulse), FIG. 6 (c) is the difference result obtained by subtracting the signal recorded by the photodetector after a short pulse from the signal after a long pulse.

The constituent structural components of the card reader, optoelectronic sensor and the zone of the irradiation cycle and measuring the spectral characteristics (luminescence kinetics) of the corresponding section of the object under study in the graphic materials are indicated below by the following positions.

1 - card reader.

2 - map (memory - the studied object).

3 - cross-board.

4 - board ("control module").

5 - nameplate (card reader).

6 - cover (card reader housing).

7 - leg (card reader housing).

8 - LED (for example, BIR-RM1331).

9 - LED (for example, TSAL4400; L-1503SRC).

10 - photodiode.

11 - surface (detected by the investigated object).

12 - glass (measuring windows).

13 - impulse (short lighting means).

14 - impulse (long lighting means).

15 - kinetics of luminescence (after a short pulse 13).

16 - kinetics of luminescence (after a long pulse 14).

17 and 18 - characteristic (photodetector / photo diode 10 / photodetector system).

19 and 20 - zones (measurements).

According to the invention, the method of functioning of the card reader 1 is as follows.

They record, read and reproduce information from memory cards 4 of various standards and subsequently use this information in the process of electronic interaction with the corresponding hardware and software. A card reader 1 is equipped with an optoelectronic sensor, which is functionally a means of identifying the authenticity of a memory card 2 by detecting at least one security tag formed on it, for which a portion of the memory card 2 with a security tag is placed in the field of view of the sensor. Moreover, the said recording, reading and reproduction of information is carried out after registration by the said sensor of a positive authentication result, which is obtained by appropriate processing of data obtained during the detection process.

The card reader 1 for the firmware contains an electronic device that is functionally a means of recording, reading and reproducing information from memory cards 2 of various standards for the subsequent use of this information in the process of electronic interaction with the corresponding firmware. The electronic device of the card reader is equipped with an optoelectronic sensor, which is functionally a means of identifying the authenticity of the memory card 2, which is structurally organized with the possibility of detecting at least one protective mark formed on the memory card 2 when this section is placed in the field of view of the sensor in the operational position of the memory card 2 . At the same time, an electronic device equipped with the said sensor is structurally and functionally organized with the possibility of performing the said recording, reading and reproduction of information exclusively after the said sensor registers a positive result of identification of the authenticity of the memory card 2 by means of processing the data array generated by the yes-no algorithm in the process of detecting a security label.

The optoelectronic sensor for card reader 1 contains:

- lighting means, made in the form of an electromagnetic radiation generator that generates a radiation flux in a given spectral band, and which is functionally a source of irradiation of a surface area of an object under study - a memory card 2 equipped with a luminescent protective mark;

- optoelectronic photodetector system, comprising at least a photodetector of electromagnetic radiation generated by the corresponding portion of the surface of the investigated object, made in the form of a photodiode 10, sensitive to radiation in a given spectral band, which is functionally a means of recording said luminescence radiation;

- as well as a processing unit that is commutatively connected with the aforementioned photodetector, which is functionally a means of verifying the authenticity of the object under study based on processing, converting mainly to digital form, and then comparing, in accordance with a given program according to the yes-no algorithm, the values of the characteristic parameters generated during the process irradiation of the corresponding surface area of the studied object of luminescence radiation recorded by the said photodetector, with similar values corresponding to the genuine object, which are stored in the RAM module of the processing unit.

The electromagnetic radiation generator is structurally spatially organized in the form of a module consisting mainly of two LEDs of the same type 8 and 9, which are spatially arranged symmetrically relative to the main optical axis of the photodiode 10 of the photodetector system with the possibility of intersection of their main optical axes with the mentioned axis of the photodiode 10 in one zone lying on a plane corresponding to the irradiated surface of the investigated object, with the possibility of functioning in a pulsed mode with different durations mpulsov. The lighting device and the photodetector of the photodetector system are designed to detect at least one discrete luminescent label of the object under study, the phosphor particles of which have the given kinetic characteristics of luminescence and absorption and reflection properties in the spectral band at least partially overlapping by the spectral bands of the radiation of the irradiating LEDs 8 and 9 lighting means and photodetector sensitivity. As the values of the characteristic parameters of the luminescence radiation generated by the corresponding portion of the surface of the object under study recorded by said photodetector, the difference between the values of the luminescence radiation mentioned during the long and short pulses generated by the lighting means is used.

The principle of operation of a detecting optoelectronic sensor (used in a card reader) from the physical point of view is as follows.

A protective label formed on the object under study contains particles of a phosphor with unique properties. Namely, the particles of the phosphor used have the specified kinetic characteristics of luminescence and the absorption and reflection properties in the spectral band overlapping by the spectral bands of the radiation of the irradiating LEDs 8 and 9 of the lighting means and the sensitivity of the photodetector.

For example, under the influence of UV radiation, the phosphor also emits UV radiation in the corresponding spectral band. In this case, luminescence radiation can be distinguished from simple reflection only by the afterglow duration. The instrument’s lighting means irradiates the object under investigation in a cyclic mode. Each measurement cycle consists of two pulses 13 and 14 - short and long, respectively. After each pulse 13 and 14 of the excitation is measured. The measurement result is the difference of the signals obtained after the short and long pulses 13 and 14, respectively, of the excitation. If the difference signal (Fig. 6c) exceeds the reference value (which is embedded in the memory module of the processing unit), the presence of a protective luminescent mark is recorded. The photodetector (photo diode 10) of the photodetector system of the device is sensitive to radiation in the spectral band overlapping with the spectral band of luminescence radiation. Thus, the sensor can be triggered only on the phosphor that emits in a strictly defined spectral band, and also has certain kinetic characteristics (luminescence attenuation).

Conducted operational tests of the claimed object (card reader) and the method of its operation showed their industrial applicability in such indicators as the resolution and reliability of detection of the studied objects.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed technical solutions:

- objects that embody the claimed technical solutions, when implemented, can be implemented as a method of operating a card reader with an optoelectronic detecting sensor as part of its use in software and hardware to identify the authenticity of memory cards before accessing information stored on the card;

- for the declared objects as described in the independent clauses of the formula below, the possibility of their implementation using the means and methods described above or known from the prior art on the priority date is confirmed;

- objects that embody the claimed technical solutions, when implemented, are able to ensure the achievement of the technical result perceived by the applicant.

Claims (3)

1. An optoelectronic sensor for a card reader, comprising: a lighting device, made in the form of an electromagnetic radiation generator that generates a radiation flux in a given spectral band, and which is a functionally source of irradiation of a surface area of an object under study - a memory card equipped with a luminescent protective mark; an optoelectronic photodetector system, including at least a photodetector of electromagnetic radiation generated by the corresponding surface section of the object under study, made in the form of a photodiode sensitive to radiation in a given spectral band, which is functionally a means of recording said luminescence radiation; as well as a processing unit that is functionally a means of verifying the authenticity of the object under study, which is functionally a means of verifying the authenticity of the object under study, converting it mainly to digital form and then comparing, in accordance with a given program according to the yes-no algorithm, the values of the characteristic parameters generated during irradiation with the corresponding the surface area of the studied object of luminescence radiation recorded by the said photodetector, with similar beginnings corresponding to the original object, which are stored in the RAM module of the processing unit, characterized in that the electromagnetic radiation generator is structurally spatially organized in the form of a module consisting mainly of two of the same type of LEDs that are spatially placed symmetrically with respect to the main optical axis of the photodiode of the photodetector system the intersection of their main optical axes with the mentioned axis of the photodiode in one zone lying on a plane corresponding to bluchaemoy surface of the object, to operate in a pulsed mode with pulses of different duration; the lighting means and the photodetector of the photodetector system are designed to detect at least one discrete luminescent mark of the object under study, the phosphor particles of which have the given kinetic characteristics of luminescence and absorption and reflection properties in the spectral band at least partially overlapping by the spectral bands of the radiation of the illuminating LEDs of the illumination means and sensitivity of the photodetector; and as the values of the characteristic parameters of the luminescence radiation generated by the corresponding portion of the surface of the object under study recorded by said photodetector, the difference between the values of said luminescence radiation generated during the long and short pulses generated by the lighting means is used. 2. Card reader for software and hardware, containing an electronic device that is functionally a means of recording, reading and reproducing information from memory cards of various standards for the subsequent use of this information in the process of electronic interaction with the corresponding software and hardware, characterized in that the electronic device the card reader is equipped with an optoelectronic sensor according to claim 1, while the electronic device equipped with said sensor is structurally functional arranged to perform said recording, reading and reproducing information only after said sensor registering positive identification card authentication, by treatment with a given program by the algorithm "yes-no" data array generated in the watermark detecting process. 3. The method of functioning of the card reader for software and hardware, which consists in recording, reading and playing back information from memory cards of various standards and the subsequent use of this information in the process of electronic interaction with the corresponding software and hardware, characterized in that an optoelectronic sensor is introduced into the card reader according to claim 1, a portion of a memory card with a protective mark is placed in the field of view of the sensor; wherein said recording, reading and reproduction of information is carried out after the said sensor registers a positive authentication result, which is obtained by appropriate processing of the data obtained during the detection process.

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