RU2152076C1 - Method for dynamic identification of different object types and device for its embodiment - Google Patents

Abstract

FIELD: computer engineering. SUBSTANCE: method uses reference electronic code identification unit and at least one mobile electronic code identification unit, which is mounted on object to be identified. Reference and mobile electronic code identification units are identical, operate in synchronous mode starting from identical code sets, which alter in time. Synchronization is achieved by means of electronic clock, which operates in real time. In any moment, object identification involves comparison of codes sets of its mobile electronic code identification unit and reference electronic code identification unit, which information is distributed using public information communication means. Each electronic unit has code set generator and electronic clock. EFFECT: synchronous dynamic alteration of identification codes in reference and mobile objects. 14 cl, 3 dwg

Description

 There is a method that allows, through a special perforation, to apply a unique identification number indelible and indelible without loss of presentation to a surface of an identifiable object, upon mandatory verification of the number according to registration documents (BDI Magazine Security-Reliability-Information, No. 1, 1997, p. fourteen).

 The disadvantages of the analogue of the method include low security against counterfeiting.

A device identification device is known that contains interconnected sensor identifiers mounted on an identification object and an identifier code decoding unit including a high-frequency generator, the oscillatory circuit of which is inductively coupled to the identifier sensor, an amplitude detector and a frequency control unit for a high-frequency generator with the ability to record several frequency codes for one scan cycle of a high-frequency generator (Application for invention N 96107184/09, IPC ⁶ G 06 K 11/08, BI N 21, 07.27.98).

 The disadvantages of the analogue device include the need for specialized electronic equipment at each workplace for identification of objects and a small radius of action (within the limits of the inductive coupling).

The method adopted by the "Device for the dynamic identification and encoding of information about various objects", which uses a reference electronic unit and at least one mobile electronic unit attached to an identifiable object, is adopted as a prototype of the method (Application for invention N 95114350/09 , IPC ⁶ G 08 C 17/00, G 06 K 9/00, BI N 22, 08/10/97). The identification code is transmitted in the optical frequency range.

 The disadvantage of the prototype method is the limited coverage of the identification, lying within optical visibility.

A device for dynamically identifying and encoding information about various kinds of objects, containing a reference electronic unit and at least one mobile electronic block of codes with the possibility of fixing it on an identifiable object (Application for invention N 95114350/09, IPC ^{6, was} taken as a prototype of the claimed system) G 08 C 17/00, G 06 K 9/00, BI N 22, 08/10/97). In the known device, in addition, there is a control unit and an information exchange unit, a stationary unit containing external write-read heads, as well as a data evaluation and translation unit (controller), data between the stationary unit and the information carrier exchange unit are transmitted remotely in the optical range electromagnetic waves.

 However, the prototype has the following disadvantages: the availability of specialized electronic equipment at each workplace for identifying objects in the coverage area of a remote asymmetric communication channel of an optical communication channel, as well as the low noise immunity of such a communication channel, because it can be blocked by any physical object that blocks line of sight.

 The main task of increasing security against counterfeiting of goods, the solution of which the claimed invention is directed, is to ensure accessibility and simplification of the process of identifying objects, i.e. identification can be carried out by any person almost anywhere: in a store, in a warehouse, in a market, etc.

 The only technical result that can be achieved by implementing the claimed group of inventions is the use of synchronous dynamic change in time of the identifying codes of the reference and mobile objects.

 The specified technical result is achieved by the fact that in the method of dynamic identification of various kinds of objects, in which a reference electronic code identification unit and at least one mobile electronic code identification unit mounted on an identifiable object are used, in accordance with the invention, identical reference and, at least one mobile electronic code identification units, autonomously operating in synchronous mode, that start from identical code sets that change time, and for synchronization using electronic clocks operating at the same time, to identify an object at any time, compare the values of the code sets of the mobile electronic code identification blocks with the value of the code set of the reference electronic code identification block, information about which is distributed by open means of transmission information.

 The method of dynamic identification of various kinds of objects can be implemented as follows.

 Electronic identification blocks of 7 codes, made, for example, in microelectronic design with autonomous power sources, are strengthened in a way that excludes the removal of the presentation of the product without damage, one on the reference object, others (there may be many) are mounted on mobile objects. Typically, these are the goods themselves or their satellite packaging, depending on the size of the goods themselves. The reference object is left, for example, with the manufacturer of the goods, and the goods with mobile electronic code identification units fixed to them are sent through distribution channels for sale. In any distribution chain, at any time, the value of the code set is read from any mobile object (product or satellite packaging) and compared with a reference value, information about which is obtained from open sources of information, for example, radio, television, print, the Internet . For example, for a batch of televisions, the daily frequency of code set changes is set. At the current date of verification, the value of the reference code in symbolic form is 5H8P. The same code value should be on all units of goods from this batch. At 00 hours 00 minutes at a single time, for example, GMT, the value of the code sets of the reference and mobile electronic units for identifying codes will change by the signal from the electronic clock to the next value, for example, 7PL8. Over the next day, this code value remains unchanged, it is compared, receiving information from open sources, in particularly important cases, the manufacturer is requested. The law of changing code sets is set during the manufacture of electronic codes for identification of codes and it is practically impossible to select it due to the large number of possible combinations. For another batch of goods, if necessary, they set a different law for changing code sets by changing the initial code sets and setting a different order of their sequence.

 The specified technical result is achieved by the fact that in the system for dynamic identification of various kinds of objects, including a reference electronic code identification unit and at least one mobile electronic code identification unit, with the possibility of fixing it on an identifiable object, each of which contains a power source, in accordance with the invention, the reference and mobile electronic code identification units are identical, each of which contains a code set generator, the outputs of which connected to the information display device, and an electronic clock containing a battery, a time indicator and a timer, the specified output of which is connected to the input of the code set generator.

 The input of the code set generator is connected to a predetermined timer output via a switch, the input data bus and recording control inputs are inputs of electronic code identification blocks.

 The code set generator is connected to the information display device through a decoder.

 As a power supply element of the electronic clock of each electronic code identification block, the power supply of the electronic code identification block is used.

 An electronic power source is used as an electronic clock power element.

 As an indicator of electronic clock time, a device for displaying information of each electronic code identification block is used.

 As an indicator of the time of an electronic clock, its own time indicator is used.

 A shift register with feedbacks through an adder modulo two was used as a generator of code sets.

 As a generator of code sets, a memory device with an arbitrary address selection, the address buses of which are connected to the outputs of the binary counter, is used.

 An information input device was used as a code set generator.

 The specified outputs of the shift register are connected to the inputs of the adder modulo two through the switch, the output of the adder modulo two is connected to the input of the shift register, the information display device is connected to the outputs of the shift register, the specified timer output is connected to the input of the binary counter.

 As an input device for information, input devices with punched tapes, or punched cards, or magnetic tapes, or magnetic cards are used.

 Thus, the use for identifying objects of time-varying code sets according to a single law for the reference and mobile electronic blocks of identification of codes fixed on identifiable objects, while synchronizing these codes according to a single hour time, can reliably identify the authenticity of various kinds of objects by comparing the code set of any object at the current time, for example, the current day, with the reference value of the code set for this type of objects (consignment), received th transmit information on the open channel. The claimed invention is based on the fact that the future values of the code sets of the working generator of code sets cannot be predicted or mathematically calculated without access to the elements of its design and without the value of the initial (starting) code set. When implementing the invention according to claim 9. it is impossible to find out the future values of the code sets even after gaining access to all the structural elements of the device, since the sequence of code sets is determined by both the device design and the initial code set, which itself does not remain constant during operation, but is transformed according to the law determined by the state switches of electronic code identification blocks, i.e. it cannot be read from a working electronic code identification unit. Thus, only the manufacturer has the key to the work of all code set generators, and protection against reproducing the desired sequence of code sets is ensured even with the direct access of attackers to the structural elements of the device. If the value of the initial code is obtained dishonestly, it’s simple enough for the next batch of goods to change the value of the initial code set, the position of the switch for code set generators, or both of these parameters at the same time, which will take a little time and practically does not require expenses.

 The claimed invention meets the condition of patentability - "world novelty", since the prior art has not identified technical solutions of the same purpose with the claimed combination of essential features of the independent features of the claims.

 The claimed invention meets the condition of patentability - "inventive step", since the prior art has not revealed technical solutions with features that match the features of independent features of the claims.

The invention is illustrated by drawings, where:
in FIG. 1 shows a system for dynamic identification of various kinds of objects;
in FIG. 2 shows a diagram of a code set generator on a shift register;
in FIG. 3 shows a diagram of a code set generator on a memory device with an arbitrary address selection.

 The system for identifying various kinds of objects contains a reference electronic unit for identifying codes 1 and at least one mobile electronic unit for identifying codes 2. The number of mobile electronic units for identifying codes 2 is determined by the needs of the consumer, their number may be, for example, the number of units of goods, intended for identification.

 The reference electronic code identification unit 1 and the mobile electronic code identification unit 2 are completely identical. Each of them contains a code set generator 3, an information display device 4, an electronic clock 5 and a power supply 6. The electronic clock 5 contains a power element 7, a timer 8 and a time indicator 9. The input data bus 10 and the write control inputs 11, 12 of the code generator sets 3 are inputs of electronic blocks 1, 2. The outputs of the code set generator 3 are connected to the inputs of the information display device 4. The predetermined timer output 8 of the electronic clock 5 is connected to the input of the code set generator 3.

 The code set generator 3 can be connected to the information display device 4 via a decoder 13 if the design of the information display device 4 does not have the functions of converting codes, for example, a binary code into a seven-segment or other symbol code.

 The specified output of the timer 8 can be connected to the input of the code set generator 3 through the switch 4. The state of the switch 4 determines the frequency of change of code sets, for example, once a day. Depending on the channel of goods distribution, the frequency of change of code sets can be set less, for example, twice a day or once per hour.

 The time indicator of the electronic clock 5 can be made in the form of an independent structural element, for example, a time indicator 9, or structurally can be combined with the information display device 4.

 As a battery element 7 of the electronic clock 5, a power supply 6 of the electronic identification blocks of codes 1, 2 can be used. The power supply 6 must be autonomous. This can be a galvanic power source, a fuel cell, a battery with recharging from solar batteries, etc.

 As a generator of code sets 3, a shift register 15 with feedbacks through an adder modulo two 16 or a memory device with an arbitrary selection of address 17 with a binary counter 18 can be used.

 In the case of using as a generator of code sets 3 a shift register 15 with feedback through an adder modulo two 16 (Fig. 2), a switch 19 is included in it. The input data bus 10 and the write control inputs 11, 12 of the electronic identification blocks of codes 1, 2 are respectively the information inputs and entries of the shift register 15. The specified inputs of the shift register 15 through the switch 19 are connected by the inputs of the adder modulo two 16, the output of which is connected to the input of the shift register 15. The specified timer output 8 is electric nnyh hours 5 is connected to a clock input of the shift register 15 through the switch 14.

 In the case of using as a generator of code sets 3 a memory device with an arbitrary sample address 17 with a binary counter 18, the input data bus 10 and the recording control inputs 11, 12 of the electronic identification blocks of codes 1, 2 are respectively the input data bus and memory control recording inputs with an arbitrary selection of the address 17, the address bus of which is connected to the outputs of the binary counter 18. The specified output of the timer 8 is connected to the counting input of the binary counter 18 through the switch 14. Outputs a random access memory 17 through a decoder 13 connected to a display device 4.

 As the generator of code sets 3, any information input device can be used, for example, an input device with punched tapes, or punched cards, or magnetic tapes, or plastic cards (not shown in the drawings). It can also be semiconductor programmable memory devices with saving information when the power is turned off with electric and ultraviolet erasing information, programmable memory devices burned, etc., the capacity of the stored code set is determined by the number and shape of the characters displayed on the information display device 4. For example, for four seven-segment characters 5H8P bit code set equal to 16 bits. The number of stored code sets is determined by the service life of the goods and the frequency of change of code sets. For example, with a daily change of code sets and a three-year warranty period for a product, the number of such codes is 3 • 365 = 1195.

 The total capacity of the storage device in this case will be 16 • 1195 = 19120 bits, which is quite acceptable for small-sized storage devices and input devices.

 In the case of using the code set generator 3 on the shift register 15, with its bit width of 16 bits, the number of different sets generated is equal to 65535, which is much more efficient than other design implementations.

 The system operates as follows, in the initial state, the power supply 6 is turned off, the switches 14, 19 of all electronic identification units of codes 1, 2 are installed in the same, pre-selected manner (for integral execution, the switches 14, 19 are made in the form of jumpers on the substrate of the integrated circuit and their position is selected during manufacture). The battery is connected 7 electronic hours 5, and then the power sources 6 of all electronic identification blocks of codes 1, 2, in the combined version it can be one power source. Using accurate time signals, a single time is set for a single time zone on an electronic clock 5 of all electronic identification blocks of codes 1, 2. Then, on the input data bus 10, the source code of the number is selected, chosen arbitrarily or mathematically calculated, but the same for all electronic identification blocks codes, in the simplest case it can be a null code. By the signals at the control inputs of the recording 11, 12 of the electronic identification blocks of codes 1, 2, the selected number is written in parallel to the code set generators 3. The recording procedure is performed first for the reference electronic code identification block 1, and then for the set of mobile electronic code identification blocks 2, strengthened on relocatable identifiable objects or their satellite packaging.

 Thus, all electronic code identification blocks are synchronized in their work by an electronic clock, and their desynchronization is determined only by the error of the electronic clock 5. From this moment on, mobile electronic code identification blocks 2 can be fixed to relocatable identifiable objects or their satellite packaging, for example, goods such as household appliances, perfumes, spirits and many others, determined by the dimensions of the goods themselves or their companion containers. The reference electronic code identification unit 1 remains with the reference holder company (producer of goods).

 With a given frequency, for example, once a day (you can choose twice a day, once an hour, etc.), the signal from the timer 8 electronic hours 5 is fed to the input of the code set generator 3 or to the clock input of the shift register when implemented system according to claim 4. claims

 The shift register 15 together with the feedbacks through an adder modulo two 5, the output signal of which is fed to the information input of the first shift register 4, forms a pseudorandom code set generator, the value of the code at the output of which will also change once a day for the case under consideration .

 Thus, on all electronic code identification blocks - reference 1 and mobile 2, mounted on relocatable identifiable objects or their satellite packaging, simultaneously by a signal from the output of electronic clock 5, once a day, at a time, for example, 00 hour. 00 minutes 00 sec the code at the output of the code set generators will be synchronously and equally changed 3. For the convenience of human perception, the value of this code, for example, in alphanumeric form, is output via a decoder 13 to an information display device 4, which can be combined with a time indicator 9 of electronic clock 5. If necessary, additional information, such as the manufacturer’s logo, may be displayed on the combined indicator.

Information is displayed in alphanumeric form, for example, 5H8P the next day on the symbolic indicators of all electronic identification blocks of codes 1 and 2, mounted on relocatable identifiable objects or their satellite packaging, wherever they are, at the same time, for example at midnight, In the same standard time, the alphanumeric value changes to a new value, for example, P7U4. There will be 2 ¹⁶ = 65536 values of such non-repeating code values for shift registers 4 with a total length of 16 bits.

 If necessary, the capacity of the shift register 15 can be increased, which will increase the number of non-repeating code sets.

 The code values will change according to a certain law, determined by the width of the shift register 15, the state of the switch 19 and also depends on the value of the source code recorded in the shift register 15. All this is intended to exclude the possibility of unauthorized reproduction of code sets. The switches 14, 19 are technological, are installed during manufacture and do not have access during operation.

 The industrial applicability of the claimed technical solution (invention) is confirmed by the possibility of its implementation as follows.

 The company-holder of the standard, through open media (print, television, radio, help desks of shopping centers, the page of the world information network "Internet") with a selected frequency that corresponds to the period of code change in electronic identification blocks of codes 1, 2, for example, daily reports the value of an alphanumeric code for each set of identifiable objects (consignments).

 The consumer (buyer), choosing the product, visually reads the value of the alphanumeric code from the information display device 4 of the electronic code identification unit 2, mounted on the identifiable object (product), and compares it with the code value obtained from the above media for this group objects (goods).

 The system allows the release of new batches of objects with the same code change law. To do this, at the current moment, for example, the current day, information is read from the information display device 4 of the reference electronic code identification unit 1 and this information is recorded in binary code in the newly manufactured mobile electronic code identification units 2.

 To reliably identify and reduce the likelihood of disclosing the law of code change, each set of identifiable objects (consignments) has its own code change law.

 The volume of electronic blocks for identifying the codes of the proposed system and power consumption with modern integrated technology do not differ significantly from the parameters of ordinary electronic clocks, which allows for continuous operation for 3-5 years. This is sufficient to identify the goods during the warranty period.

 The proposed system will find application both in protecting the interests of customers, and in protecting the image of companies producing goods from "gray copies" of the product, which means a product of a similar purpose, produced by unscrupulous competitors in compliance with all external signs (differences) of the original product, often with copying of registered trademarks, but without the use of technologies that ensure the quality corresponding to the original product. Often "gray copies" in appearance, general assembly scheme and other external characteristics are very similar to the originals and can only be distinguished from the latter by experienced experts. The inability to unambiguously identify your own product leads the manufacturer to significant costs, due to the constant work with complaints and repair of low-quality product, the production of which the company has nothing to do. Therefore, any manufacturer needs to introduce special measures to identify their own products, one of which may be the use of the proposed system for the identification of objects.

Claims (14)

 1. The method of dynamic identification of various kinds of objects, which use a reference electronic code identification unit and at least one mobile electronic code identification unit attached to an identifiable object, characterized in that they use the identical reference and at least one mobile electronic code identification units that work autonomously in synchronous mode, which start from identical code sets that change over time, while electronic synchronization is used For hours identifying an object at any time, the values of the code sets of its mobile electronic code identification unit and the reference electronic code identification unit, the information about which is distributed by open means of transmitting information, are compared.  2. A system for the dynamic identification of various kinds of objects, including a reference electronic code identification unit and at least one mobile electronic code identification unit with the possibility of fixing it on an identifiable object, each of which contains a power source, characterized in that the reference and mobile electronic code identification blocks are identical, each of them contains a code set generator, the outputs of which are connected to the inputs of the information display device, and an electronic A clock containing a battery, a time indicator, and a timer, the specified output of which is connected to the input of the code set generator.  3. The system according to claim 2, characterized in that the input of the code set generator is connected to a predetermined timer output via a switch, the input data bus and recording control inputs are inputs of electronic code identification blocks.  4. The system according to claim 2, characterized in that the code set generator is connected to the information display device through a decoder.  5. The system according to claim 2, characterized in that the power supply of the electronic code identification block is used as the power supply element for the electronic clock of each electronic code identification unit.  6. The system according to claim 2, characterized in that an own power source is used as an electronic clock power element.  7. The system according to claim 2, characterized in that an information display device of each electronic code identification block is used as an indicator of electronic clock time.  8. The system according to claim 2, characterized in that an own time indicator is used as an indicator of electronic clock time.  9. The system according to claim 2, characterized in that a shift register with feedbacks through an adder modulo two is used as a code set generator.  10. The system according to claim 2, characterized in that a memory device with an arbitrary address selection, the address buses of which are connected to the outputs of the binary counter, is used as a code set generator.  11. The system according to claim 2, characterized in that an information input device is used as a code set generator.  12. The system according to claim 9, characterized in that the specified outputs of the shift register are connected to the inputs of the adder modulo two through a switch, the output of the adder modulo two is connected to the input of the shift register, the information display device is connected to the outputs of the shift register, the specified timer output is connected with a shift register clock input.  13. The system according to p. 10, characterized in that the outputs of the binary counter are connected to the address inputs of the storage device, the input data bus of which and the recording control inputs are inputs of the electronic code identification unit, the outputs of the storage device are connected to the information display device, and the predetermined timer output connected to the input of a binary counter.  14. The system according to claim 11, characterized in that the input device using punched tapes, or punched cards, or magnetic tapes, or magnetic cards is used as the information input device.

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