RU47823U1 - USER IDENTIFICATION SYSTEM FOR REMOVING AN OBJECT - Google Patents

Abstract

The utility model relates to technical means to ensure the protection of the car from illegal actions. When disarming an object, the user identification system contains a transponder for issuing a code signal, and an electronic alarm system installed on the object, made with a receiving part for receiving an information signal from the transponder, by a microprocessor, which is used to compare the parameters of the received information signal with the set control parameters of this signal and comparing the specified signals, with a positive result of which the user is considered identical Rova. The transponder includes a microprocessor coupled to the radio frequency signal receiver and the radio frequency transmitter, configured to generate a radio frequency code signal and transmit it to the radio frequency signal transmitter, decode the request signal from the security alarm electronic unit, and encode a response signal to the specified request transmitted to the radio frequency transmitter signal. The security alarm electronic unit includes a microprocessor connected to the radio frequency signal receiver and the radio frequency signal transmitter, configured to generate a transponder request signal and transmit it to the radio frequency signal transmitter, decode the transponder response signal received by the radio frequency signal receiver, and verify the transponder response signal according to the algorithm “Friend or foe” and issuing a “friend” signal to the security alarm actuator with a positive identifier User pecifications. A feature of the system is that the receiver of the radio frequency signal of the transponder is made according to the direct detection scheme and with low sensitivity.

Description

The utility model relates to technical means of protecting a vehicle from illegal actions, in particular, relates to a design of a device intended for remote and non-contact user identification of something, for example, a car driver implementing a new method of user identification.

A known system for identifying a user when disarming an object, comprising a transponder located at the user’s position, capable of issuing a code signal, and an electronic alarm system mounted on the object, is configured with a receiving part for receiving an information signal transmitted from the transponder by a microprocessor configured to comparing the parameters of the received information signal with the set control parameters of this signal and comparing the indicated signals A positive result of which the user is considered to be identified, the transponder includes a microprocessor connected to the radio frequency signal receiver and the radio frequency transmitter, configured to generate a radio code signal and transmit it to the radio frequency signal transmitter, decode the request signal from the electronic alarm unit and encoding a response signal to the specified request transmitted to the transmitter of the radio frequency signal, and electronic bl security alarm system includes a microprocessor connected to the radio frequency signal receiver and the radio frequency signal transmitter, configured to generate a transponder request signal and transmit it to the radio frequency signal transmitter, decode the transponder response signal received by the radio frequency signal receiver, and verify the transponder response signal according to the algorithm friend or foe ”and issuing a“ friend ”signal to the security alarm actuator with positive user identification atelier (12 Volt Magazine No. 6, June, 2003, article “A room of fear for a careless car owner or thoughts on the topic of protecting car alarms from electronic hacking”).

The specified known decision was made as a prototype for the claimed device.

A disadvantage inherent in the known solution is that the transmission of the code signal from the transponder to the electronic alarm unit is carried out with a high frequency of the issued signal. In this case, it is possible to read the code signal and repeat it with another device, which will neutralize the security alarm functions as a system designed to prevent unauthorized access to the protected object.

This useful model is aimed at solving the technical problem of forming a dialogue between the electronic unit located at the guarded object and the user’s transponder at a given maximum distance and with increased noise immunity.

The technical result achieved in this case is to increase the efficiency of ensuring the security function and ease of use.

The specified technical result is achieved by the fact that in the user identification system when disarming an object containing a transponder located at the user’s position, capable of issuing a code signal, and an electronic security alarm unit installed on the object, made with a receiving part for receiving an information signal transmitted from a transponder, by a microprocessor, configured to compare the parameters of the received information signal with the set control parameters of this signal and comparing these signals, if the result is positive, the user is considered identified, the transponder includes a microprocessor connected to the radio frequency signal receiver and the radio frequency transmitter, configured to generate a radio frequency code signal and transmit it to the radio frequency signal transmitter, decoding the request signal from the electronic block of the security alarm and coding of the response signal to the specified request transmitted to the transmitter the radio frequency signal, and the electronic alarm system unit includes a microprocessor connected to the radio frequency signal receiver and the radio frequency transmitter, configured to generate a transponder request signal and transmit it to the radio frequency signal, decode the transponder response signal received by the radio frequency signal receiver, and verify response signal of the transponder according to the “friend or foe” algorithm and issuing the “friend” signal to the security signal actuator ation when the positive identification of the user, the receiver is a radio frequency transponder signal formed by the direct detection scheme and a low sensitivity.

In this case, the detector of the radio frequency signal and the transmitter of the radio frequency signal of the transponder can each be made with a separate antenna or can be connected to a common antenna through a switch.

In this case, the receiver of the radio frequency signal and the transmitter of the radio frequency signal of the electronic alarm unit can each be made with a separate antenna or can be connected to a common antenna through a switch.

The microprocessor of the transponder can be configured to implement an additional function to verify the request from the electronic alarm unit using the friend or foe algorithm, and the microprocessor of the electronic alarm system unit can be configured to implement the additional function of generating a request signal for the transponder and transmit it to the transmitter RF signal upon receipt of a signal from at least one security alarm sensor of the object.

The transponder can operate as constantly or periodically emitting a code signal into the propagation medium or emitting a code signal into the propagation medium when you click on its inclusion.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain a technical result.

The present utility model is illustrated by specific examples, which, however, are not the only possible ones, but clearly demonstrate

the ability to achieve the given sets of features of the required technical result.

Figure 1 is a block diagram of a user identification system;

figure 2 is a block diagram of an electronic unit with separate antennas of the transceiver part;

figure 3 is a block diagram of an electronic unit with an antenna switch;

4 is a block diagram of a keychain;

5 is a block diagram of a transponder with separate antennas of the transceiver part;

6 is a block diagram of a transponder with an antenna switch.

According to the present utility model, the claimed device is based on the implementation of a method for providing user identification, which means that the user transmits a coded signal via the radio channel in the direction of the object that is set to the security alarm, which is received by the receiving part of the security alarm for verification according to a predetermined friend or foe algorithm ". Upon receipt of the encoded signal from the transponder from the security alarm side, a request is sent to the transponder in the form of an information signal generated using a random number generator, and upon receipt of the corresponding response from the transponder within a specified time, this response is checked using a separate friend-or-foe algorithm »And if the parameters of the transponder response signal coincide with the set control parameters of this response signal, the user is considered identified oh.

On the basis of the method for providing user identification, a method of disarming an object can be developed, which consists in the fact that when using a security alarm with removal from a keyfob signal, the user issues a coded signal in the direction of the security signal from the keyfob when receiving an encoded signal from the keyfob from the side burglar alarm in the latter carry out the verification of the received signal according to the algorithm "friend-alien keychain", and if the test is positive, the signal " key fob ”, during the formation of which, from the alarm system side, a request is sent to the transponder via the radio channel in the form of an information signal generated using a random number generator, and upon receipt of a corresponding response from the transponder within a specified time, this response is checked using a separate“ own- alien ”and if the parameters of the response signal of the transponder coincide with the set control parameters of this response signal, the user is considered identified.

As an option that supplements the previously indicated method, we can consider an example according to which, when a transponder receives a request, the latter checks this request using the friend or foe algorithm.

The specified method of user identification can be implemented using a user identification system. This system contains a transponder located at the user’s place, capable of issuing a code signal, and an electronic alarm system unit installed on the object, made with a receiving part for receiving an information signal transmitted from the transponder by a microprocessor configured to compare parameters

the received information signal with the set control parameters of this signal and comparing these signals, with a positive result of which the user is considered identified. In this system, the transponder includes a radio frequency signal connected to the receiver, made according to the direct detection scheme and with low sensitivity, and a radio frequency signal transmitter, a microprocessor configured to generate a radio code signal and transmit it to a radio frequency signal transmitter, decoding a request signal from an electronic the security alarm and coding unit of the response signal to the specified request transmitted to the transmitter of the radio frequency signal, and the electronic security unit The signal system includes a microprocessor connected to the receiver of the radio frequency signal and the transmitter of the radio frequency signal, which is configured to generate a transponder request signal and transmit it to the transmitter of the radio frequency signal, decode the transponder response signal received by the radio frequency signal receiver, and verify the transponder response signal using the algorithm “alien” and issuing a “your” signal to the security alarm actuator with positive user identification.

In this case, the detector of the radio frequency signal and the transmitter of the radio frequency signal of the transponder can each be made with a separate antenna or can be connected to a common antenna through a switch.

In this case, the receiver of the radio frequency signal and the transmitter of the radio frequency signal of the electronic alarm unit can each be made with a separate antenna or can be connected to a common antenna through a switch.

The microprocessor of the transponder can be configured to implement an additional function to verify the request from the electronic alarm unit using the friend or foe algorithm, and the microprocessor of the electronic alarm system unit can be configured to implement the additional function of generating a request signal for the transponder and transmit it to the transmitter RF signal upon receipt of a signal from at least one security alarm sensor of the object.

The transponder can operate as constantly or periodically emitting a code signal into the propagation medium or emitting a code signal into the propagation medium when you click on its inclusion.

This system is designed for remote and non-contact user identification of something, for example, a car driver.

The system consists of a basic electronic unit 1 (installed, placed on an object to be protected, for example, a car), a key fob 2 and a transponder tag or transponder 3 (located at the user) (Fig. 1).

The basic electronic unit (figure 2, 3) includes a transmitter 4 of the radio frequency signal with antenna 5, a receiver 6 of the radio frequency signal with antenna 7, a microprocessor 8 that controls the transmitter and receiver, and also generates a signal at the output 9 "friend or foe" ( “Identified - not recognized”) and output 11 “own keychain”. The transmitter is used to transmit data over the air using a transmitting antenna. The receiver is used to receive data over the air using a receiving antenna. Alternatively, the antenna may be one, transceiver,

and the transmitter and receiver are connected to the antenna through the switch 12 (Fig.3).

On the car, output 9 "friend or foe" can be used to control the ignition lock / unlock; in an apartment or office - to unlock the door lock; at the entrance to the parking lot - for lifting the barrier. The microprocessor also has inputs 10 to start polling the transponder.

The microprocessor performs the functions of: 1) encoding the polling signal of the transponder; 2) decoding the response signal of the transponder; 3) making a decision "friend or foe"; 4) making a decision "friend-alien keychain"; 5) making a decision to start polling a transponder; 6) issuing a signal "friend or foe"; 7) issuing a signal "friend-alien keychain."

The microprocessor polls the input of the start of the transponder polling, for example, the ignition input or the door entrance in the car. When the signal level changes to enable, the microprocessor starts the polling procedure of the transponder. First, using the random number generator, a Request signal is generated and transmitted over the air; then the set time is expected Response from the transponder. If the Answer is received on time, and it has successfully passed the test according to the given “friend or foe” algorithm, then a permission signal is generated at the “friend or foe” output.

Option: to start polling the transponder, you can use some kind of sensitive sensor, for example, a microwave motion sensor or shock sensor. He approached the a / car or tapped on the glass - the sensor worked, the transponder was interrogated, the transponder was successfully identified, and the car unlocks the doors or, as an option, the door near which the motion or shock sensor is located.

The block diagram of the keychain is presented in figure 4. The microprocessor 13 of the remote control, when the control button 14 is pressed (when the control contact is closed), generates an encoded signal according to a predetermined algorithm, and transmits it using the radio transmitter 15.

The transponder (figure 5) includes a detector receiver 16 of the radio frequency signal with the antenna 17, a transmitter 18 of the radio frequency signal with the antenna 19, a microprocessor 20 that controls the transmitter and receiver, as well as a power source 21, for example, a battery.

The transmitter is used to transmit data over the air using a transmitting antenna.

The receiver is used to receive data over the air using a receiving antenna.

Alternatively, the antenna may be one, transceiver, and the transmitter and receiver are connected to the antenna through the switch 22 (Fig.6).

The microprocessor 20 performs the functions of: 1) decoding the polling signal of the transponder (Request signal); 2) encoding the transponder response signal (Response signal); 3) as an option, making the decision “friend or foe” transmitter (“friend or foe” Request).

The transponder receiver is made according to the direct detection scheme, that is, the signal from the antenna through the matching device is fed to the detector, and then the detected signal is amplified and fed to the microprocessor.

Such a construction of the receiver allows to reduce the current consumption, and ensures the service life of the transponder battery (lithium battery) in several years.

Another advantage of the detector receiver is low sensitivity, and, as a result, high noise immunity.

Low sensitivity allows you to limit the radius of the system (range of transponder recognition) to a given value (for a car - inside the cabin and a few meters around).

Upon receipt of the Request from the transmitter, the microprocessor performs a “friend or foe Request” check, then, if a request is received from the “own” transmitter, based on the Request data, a Response is generated according to the specified algorithm. The response data is transmitted by the transmitter of the transponder to the air.

The specified algorithm for the interaction of a pair of "transmitter-transponder" allows you to prevent the selection or interception-relay of exchange signals. The selection of the code is excluded by a large range and the random law of changing the number used in the Request, and the interception-relay of the code is excluded by the limited time of receiving the Response signal. The longer the Request length, and the shorter the time allotted for the response - the more cryptographic the algorithm is and more protected from interception-relay.

The indicated block diagram of the construction of the transponder allows to reduce the dimensions of the transponder to the minimum, to eliminate the need for tuning the circuit, to minimize the price of the transponder, to ensure the battery life is several years. In addition, the low sensitivity of the transponder receiver provides good noise immunity.

This utility model is industrially applicable, as it is built using the element base and ready-made, manufactured by the electronic industry, components and blocks used in the manufacture of electronic security systems.

Claims (7)

1. The user identification system when disarming an object, comprising a transponder located at the user’s position, capable of issuing a code signal, and an electronic alarm system mounted on the object, made with a receiving part for receiving an information signal transmitted from the transponder by a microprocessor made with the function of comparing the parameters of the received information signal with the set control parameters of this signal and comparing these signals, p and the positive result of which the user is considered identified, the transponder includes a microprocessor connected to the radio frequency signal receiver and the radio frequency transmitter, configured to generate a radio code signal and transmit it to the radio frequency signal transmitter, decode the request signal from the electronic alarm and coding unit a response signal to the specified request transmitted to the transmitter of the radio frequency signal, and the electronic security unit The alarm system includes a microprocessor connected to the radio frequency signal receiver and the radio frequency transmitter, configured to generate a transponder request signal and transmit it to the radio frequency signal transmitter, decode the transponder response signal received by the radio frequency signal receiver, and verify the transponder response signal using the - alien "and issuing a signal of" own "to the alarm control actuator with positive user identification, exc sistent in that the signal receiver radio frequency transponder is configured for direct detection scheme and a low sensitivity. 2. The system according to claim 1, characterized in that the detector receiver of the radio frequency signal and the transmitter of the radio frequency signal of the transponder are each made with a separate antenna or connected to a common antenna through a switch. 3. The system according to claim 1, characterized in that the microprocessor of the transponder is configured to implement an additional function to verify the request from the electronic alarm unit according to the friend-or-foe algorithm. 4. The system according to claim 1, characterized in that the receiver of the radio frequency signal and the transmitter of the radio frequency signal of the electronic security alarm unit are each made with a separate antenna. 5. The system according to claim 1, characterized in that the receiver of the radio frequency signal and the transmitter of the radio frequency signal of the electronic security alarm unit are connected to a common antenna through a switch. 6. The system according to claim 1, characterized in that the microprocessor of the electronic security alarm unit is configured to implement an additional function of generating a request signal for a transponder and transmitting it to a radio frequency signal transmitter when a signal is received from at least one security alarm sensor of the object. 7. The system according to claim 1, characterized in that the transponder is made constantly or periodically emitting a code signal into the propagation medium or emitting a code signal into the propagation medium when you click on the body to enable it.