BE1006005A3 - Method and device for identification of objects, especially of motor vehicles. - Google Patents

Abstract

A station, provided with an obligatory passage for the object, comprises a buried transmitting antenna, configured in eight to produce an incident signal (SI) towards the object as well as a receiving antenna coplanar with the antenna d transmission to receive an electromagnetic return signal (SM) and detect the object identification code. The latter is provided with a cell having antennas for receiving (22) the incident signal (SI) and for transmitting (21) said return signal (SM) modulated by the identification code. A circuit (23) is also provided on the cell suitable for temporarily activating the electrical supply means (25) of this cell.

Description

       

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  DESCRIPTION Method and device for identifying objects, in particular motor vehicles The invention relates to identifying objects.



  It applies, advantageously but not limited to, controlling the movement of motor vehicles.



  The Applicant has already tested a vehicle identification device, in particular for the purpose of deterring theft of these vehicles.



  In such a device, provision is made to have on the object to be identified, a passive cell, that is to say one not provided with its own electrical supply means, capable of responding remotely to the emission of a electromagnetic signal, by absorbing and modulating by pulses, according to an identification code associated in a one-to-one manner with the object, the electromagnetic signal which strikes it.



  It is also planned to equip a station, provided with a compulsory passage for the object, with a buried transmitting antenna to transmit this electromagnetic signal to the object present in the passage and with means capable of perceiving the variations. of the transmitted energy and deduce the identification code of the object.



   Although it has obtained interesting experimental results, the Applicant still wishes to improve the performance of these identification devices, in particular for certain applications.

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  The invention aims to allow such an improvement.



  The proposed device firstly comprises a cell, arranged on the object, and capable of responding remotely to the emission of an incident electromagnetic signal by an identification code associated in a one-to-one manner with the object. It also includes a station, provided with a compulsory passage for the object, and control means, comprising a buried transmitting antenna, for producing said signal towards the object present in the passage and detecting its identification code. .



  According to a general characteristic of the invention, the cell comprises an activation circuit connected to a first antenna for receiving the incident signal and suitable for temporarily activating means for supplying the cell with electricity; there is also provided identification means comprising a second transmitting antenna, to produce an electromagnetic signal of frequency different from that of the incident signal er modulated by said identification code. In combination with these characteristics of the cell, provision is also made for the transmitting antenna of the station to be configured in eight while the control means comprise an antenna for receiving the modulated signal, coplanar with said transmitting antenna.



   The subject of the invention is also a method for identifying objects, the implementation of which the device mentioned above allows, and in which it is intended to compare the detected identification code with reference information .



   It is therefore particularly advantageous to provide a plurality of compulsory passageways with control means, linked together to a central file containing

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 at least some of the reference information, which allows in particular the identification and tracking of stolen vehicles.



  Other advantages and characteristics of the invention will appear on examining the detailed description below and the attached drawings, in which: - Figures 1 and 2 very schematically illustrate a configuration of antennas according to the invention arranged in the level of the station, FIGS. 3 and 3A very schematically illustrate a configuration of antennas according to the invention arranged on a cell of an object to be identified, - FIG. 4 is a schematic diagram of a parity of the control means of the station ; and - Figure 5 is a schematic functional block diagram of a cell according to the invention.



   The drawings essentially contain elements of a certain character. As such, they form an integral part of the description and may not only serve to better understand the detailed description below, but also contribute, if necessary, to the definition of the invention.



   In FIG. 1, the reference 1 generally designates a station equipped with a compulsory passage lane for a vehicle capable of being identified during its passage in this lane according to arrow P.



   Such a station is also equipped with means for checking the identification of this vehicle, comprising a

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 set of antennas 11, 12, in principle embedded in the ground parallel to the plane of the roadway.



  Among these two antennas, one of them, bearing the reference 11, is configured in eight and is intended for the emission of an incident electromagnetic signal as will be seen below. The other antenna, marked with the reference 12, is a conventional antenna comprising a single loop, surrounding the antenna 11 and coplanar with it, and is intended for the reception of a modulated electromagnetic signal, as detailed below.



  In order to produce an intense magnetic field, the wavelength of the electromagnetic signal emitted is kilometric, which corresponds to the low frequency domain, typically of the order of hundreds of KHz. On the other hand, the wavelength of the modulated electromagnetic signal received by the antenna 12 is decametric, which corresponds to a high frequency domain, typically of the order of a few tens of MHz.



  The coexistence of these two antennas embedded in the ground is made possible by their difference configuration which gives them a natural decoupling of the order of 20 to 30 dB. In fact, if the LCR field lines of the receiving antenna 12 extend substantially perpendicular to the roadway 10 above the roadway (FIG. 2), the LCE field lines of the transmitting antenna 11 have a curved shape emanating from one of the eight antenna loops to close in the other loop. Thus, at a certain height above the set of antennas, the respective field lines thereof are substantially orthogonal to each other.



   The eight configuration of the transmitting antenna allows

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 in addition to ensuring good directivity of the emission of the incident signal while preventing the LCE field lines from being greatly disturbed by the passage of the vehicle V, the generally metallic underbody of which is shown diagrammatically in this FIG.



  As will be seen later, an identification cell is placed under the vehicle V to be activated by the incident electromagnetic field coming from the transmitting antenna 11. Also, it is necessary that the intensity of the electromagnetic signal incident to the level of the cell fixed under the vehicle is greater than a predetermined threshold, in order to be able to activate it. The intensity of this signal is represented schematically on the diagram in FIG. 2 by the evolution of the curve H as a function of the height counted from the ground. The admissible height range hmax-hmin, for which the intensity H is greater than the predetermined threshold, depends on the dimensions of the antenna 11 and on the power supply thereof.

   These parameters are adjusted to obtain correct operation of the device taking into account the height of the rocker panels of current vehicles. Thus, for example, an antenna 11 will be chosen whose large dimension L, counted perpendicular to the direction of passage P, is of the order of 2 meters and whose dimension l, counted parallel to the direction of passage P, is of the order l meter. With such antenna dimensions, it is possible, for example, to choose a power supply of the order of 6 watts.



   As already mentioned above, another essential element of the device consists of a cell 2 arranged in principle under the vehicle in an invisible manner. Schematic side and front views are shown respectively in FIGS. 3 and 3A.

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  It is thus currently envisaged that this cell has the shape of a rectangular parallelepiped having a length of the order of 45 mm, a width of the order of 20 mm and a height of the order of 20 mm. This cell could be, for example, placed in one of the cavities of the underbody of the vehicle and covered with a coating. We could also consider it being hidden elsewhere in this vehicle.



  In order to cooperate with the set of antennas of the station, cell 2 is also provided with an antenna for transmitting the modulated electromagnetic signal 21 and with an antenna for receiving the incident signal 22. These two antennas, for example of the frame type, are respectively placed in two substantially orthogonal planes so as to allow good electromagnetic decoupling between them.



  The receiving antenna 22 is placed in a plane substantially perpendicular to that of the transmitting antenna of the station 11 so as to collect a maximum electromagnetic flux. Likewise, the arrangement of the transmitting antenna 21 in a plane parallel to the ground of the roadway gives it maximum coupling with the receiving antenna of the station 12.



  The station control means also include an electronic part, a block diagram of which is illustrated in FIG. 4.



   With regard to the transmission part, it is particularly advantageous for the incident electromagnetic signal transmitted to be modulated by an authentication code common to all the cells 2. Also, a modulator is provided
133 connected to an oscillator 131 and to a read-only memory, for example of the electrically programmable type, capable of delivering a series of binary information representative of this authentication code.

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  At the output of the modulator, the modulated signal is amplified in power in a power amplifier 14 and delivered, via a coaxial cable 145, to an antenna box 15 connected to the transmitting antenna 11.



  Although this is not essential, it is possible that this antenna housing includes an antenna balun 151 followed by an adapter 152. The use of such a balun, which may for example be that marketed by the company MINNS (Great Britain) under the reference XDC41A would then make it possible to keep the outer sheath of the coaxial cable 145 at ground potential and offer an additional guarantee of decoupling between the transmit and receive antennas.



  As regards the reception part of the modulated electrical signal SM, there is also provided an antenna balun 153 connected to the reception antenna 12, in principle also contained in the antenna housing 15 and offering the same advantages as the balun 151. The signal SM is delivered, at the output of balun 153, to a demodulator receiver 16 via a coaxial cable 165. This receiver is suitable for determining the identification code of cell 2 associated in a one-to-one manner to the vehicle. This code is then transmitted in series to an RS422 type interface 17 and then to local processing means 18 via an RS422 serial link supporting the reference 175.



   The processing means 18 are also linked to a file 19 containing reference information which can be updated regularly, for example by telephone link LT coming from a central computer.
Thus, the processing means can perform a comparison between the identification code delivered by the demodulator receiver and the information file

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 of reference to deduce therefrom in particular if the vehicle which has just passed in the passageway is part of a list of stolen vehicles.



  The two transmitting and receiving antennas 21 and 22 of the cell are associated with electronic processing means arranged inside the housing thereof.



  A schematic functional diagram is provided in FIG. 5.



  An activation circuit 23 is connected to the receiving antenna 22 by means of filtering and rectifying circuits (not shown), and is capable of activating or inhibiting means of electrical supply to the cell 25, such as that a battery, via a switch 24. This activation circuit 23, comprising for example a monostable and logic gates, is clean, in response to the reception of the signal SI on the antenna 22, to activate the battery 25 during a selected activation time t1, in principle fixed, then inhibit this battery 25 during a blocking time t2 which may vary, as the case may be, as will be explained below. The switch 24 can for example be produced using a transistor.



  A person skilled in the art therefore notices that, once activated after closing the switch 24, the battery 25 supplies an electrical supply voltage to the other components of the cell.



   Analysis means 26 are also connected to the receiving antenna 22 to analyze the incident signal SI received and extract the authentication code transmitted by the station. These analysis means include a demodulator
261 followed by a decoder 262 as well as a mcrte memory
263, for example of the electrically programmable type, containing a reference authentication code. The

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 respective outputs of decoder 262 and memory 263 are respectively connected to the two inputs of a comparator 264 whose output is connected to control means 27 of a high frequency oscillator 281 forming part of identification means 28 of this cell .



  There is also provision, within these identification means, a read only memory 283, also of the electrically programmable type, containing a series of binary information representative of the identification code of the cell, associated in a one-to-one manner with the vehicle, and capable of delivering this identification code to the input of a modulator 284, at the rate of the pulses supplied by a down-counter 282 also connected to the receiving antenna 22.



  The modulator 284, also connected to the output of the oscillator 281, has an output connected to the transmitting antenna 21 for the emission of the modulated signal SM.



   A clock signal is also produced within the cell by a circuit which has not been shown here for the sake of simplification. This clock signal can be synchronized with the received incident signal, available at the terminals of the antenna 22. This synchronization can be acquired by the fact that the clock signal is taken directly from the received signal for example by frequency division.



   The vehicle identification process is then, in the general case, the following: a) the vehicle is passed through the passageway 10 of the station,

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 b) the incident signal SI is transmitted via the transmitting antenna 11 of this station to the vehicle present in the lane, and therefore in the direction of its cell. The reception of this signal SI at the antenna 22 has the effect of temporarily activating the battery 25, so as to supply power to the electronic components of this cell. The signal SM is modulated as a function of the cell identification code present in the memory 283 and sent back to the receiving antenna 12 of the station.



  A subsequent step c) is then provided in which the identification code thus detected is compared with reference information notably contained in the file 19.



  In this embodiment of the invention, the incident signal transmitted by the transmitting antenna of the station is modulated by an authentication code specific to all the cells. Also, after reception of this signal at the cell level, it is demodulated and the authentication code which it carries is compared with that stored in the memory 263. If the two codes are identical, the control means 27 then unlock the oscillator, which has the effect of allowing the generation and transmission of the modulated signal SM to the station.



   It is more particularly advantageous that this authentication code is transmitted coded to cell 2 and that it is of course decoded before comparison with the identification code in memory. Such an embodiment thus makes it possible to further reduce fraud attempts. Indeed, the activation of the oscillator by a coded incident signal provides an assurance that this signal is actually emitted by an authorized station and not

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 by a possible fraudster who, for example, after having stolen the vehicle, would emit a simple incident electromagnetic signal towards the cell to activate the oscillator, thus detecting the presence of the cell under the vehicle, and neutralizing it.



  An important characteristic of the invention resides in the temporary activation of the battery 25, which makes it possible to save the latter and to extend the life of the cell. Thus, once the activation time tl has elapsed, the activation circuit 23 inhibits the battery for a time t2 at least equal to a predetermined constant T of the order of 60 seconds. In addition, this blocking time t2 depends on the duration during which the cell parks at the station antennas. If this duration is less than the constant T then the inhibition time is equal to this same constant T.

   On the other hand, if this duration is greater than T, which is notably obtained if the vehicle remains stationary above the antennas of the station, then the blocking duration is equal to the duration during which the vehicle effectively remains stationary above station antennas. This makes it possible in particular to avoid excessively long operation of the device, which further increases the longevity of the battery.



   In the case where the station has several parallel passage lanes, it is advantageous to use centralized processing means 18 for all the lanes.



   In addition, the use of transmitting antennas configured in eight makes it possible to ensure good directivity of the incident signal transmitted and thus to avoid interference with the antennas of the neighboring channel or channels.



   In an application for identifying and tracking stolen vehicles, in which a plurality of forced passage routes are provided with means of checking the type of

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 those described, it is advantageous that the latter are linked together, in particular by means of their local file 19, to a central file containing at least part of the reference information relating for example to the identification code of stolen vehicles.



  In addition to the advantages already mentioned, the invention makes it possible to obtain a device practically insensitive to the presence of the metallic mass of the vehicle on which the cell is fixed. In addition, the applicant has obtained satisfactory results for a wide speed range of vehicles in the passage lane.



  The invention is not limited to the embodiments and implementation described above but embraces all the variants, in particular the following: - at least some of the objects can be provided with at least two cells suitable for defining together the identification code associated in a unique way with this object. ; - it is also possible to provide the passageway with a barrier or the like, for example in the case of a garage entrance, and the opening of the barrier can then be subordinated to the result of the comparison of the code identification detected with authorized vehicle identification codes, contained in the reference file.



   Of course, some of the means described above can be omitted in the variants where they are not used. This can be the case in particular of the means for modulating the incident signal by a cell authentication code in the case where the application does not require such additional precaution, or even the case of antenna baluns.


    

Claims (18)

Claims 1. - Method for identifying objects, comprising the following steps: a) at least some of the objects are provided with at least one cell capable of responding remotely to the emission of an incident electromagnetic signal by a code identification associated in a one-to-one manner with the object, b) at least one forced passage for objects is provided, with control means, comprising a buried transmitting antenna, to produce said incident signal towards the present object in the passage and detect its identification code, c) each object is passed through said obligatory passageway, the incident signal is transmitted to the object present in the lane and its identification code is detected;  and d) the identification code thus detected is compared with reference information, characterized in that the cell (2) comprises an activation circuit (23) connected to a first receiving antenna (22) of the incident signal ( SI) and suitable for temporarily activating the electrical supply means (25) of the cell, as well as identification means (28), comprising a second transmitting antenna (21) to produce an electromagnetic signal (SM), of frequency different from that of the incident signal (SI) and modulated by said identification code, in that the transmitting antenna (11) assigned to the channel (10) is configured in eight while the means of con-  <Desc / Clms Page number 14>  trole further comprises a receiving antenna (12), coplanar with said transmitting antenna (11),  and in that, in step c), the modulated signal (SM) is recovered using the reception antenna (12). 2.-Method according to claim 1, characterized in that, in step c), an incident signal of kilometric wavelength is emitted and a modulated signal of decametric wavelength is recovered. 3.-Method according to one of claims 1 to 2, characterized in that the supply means (25) of the cell are activated for a selected activation time (tl) and are inhibited for a selected blocking time (t2). 4.-Method according to claim 3, characterized in that the blocking time is at least equal to a predetermined duration (T) and at most equal to the duration of presence of the object in the track. 5.-Method according to one of the preceding claims, characterized in that, in step b), an incident signal is emitted modulated by an authentication code common to all the cells. 6.-Method according to one of the preceding claims, characterized in that at least some of the objects are provided with at least two cells capable of defining together that of identification.  7.- Method according to one of the preceding claims, characterized in that the reference information is stored in a file (19) and in that it comprises an additional step of updating at least some of this information. reference.  <Desc / Clms Page number 15>   8.-Method according to one of the preceding claims, characterized in that one provides a plurality of compulsory passageways with control means linked together to a central file containing at least part of the reference information, which allows including the identification and tracking of stolen vehicles. 9.-Device for identifying an object, comprising a cell arranged on the object and capable of responding remotely to the emission of an incident electromagnetic signal by an identification code associated in a one-to-one manner with the object , as well as a station, provided with a compulsory passage for the object, and with control means, comprising a buried transmitting antenna, for producing said incident signal towards the object present in the passage and detecting its code identification, characterized in that the cell (2) comprises an activation circuit (23) connected to a first receiving antenna (22) of the incident signal (SI) and suitable for temporarily activating electrical supply means (25 ) of the cell, as well as identification means, comprising a second transmitting antenna (21), for producing an electromagnetic signal (SM)  of frequency different from that of the incident signal (SI) and modulated by said identification code, and in that the transmitting antenna (11) of the station is configured in eight while the control means include besides an anter. receiving (12) the modulated signal, coplanar with said transmitting antenna (11).  10.- Device according to claim 9, characterized in that the two antennas of the cell are respectively placed in two substantially orthogonal planes,  <Desc / Clms Page number 16>  the first receiving antenna (22) of the cell being placed in a plane substantially perpendicular to that of the antennas of the station. 11.-Device according to one of claims 9 and 10, characterized in that the station control means comprise antenna baluns (151, 153) respectively connected to the two antennas of the station. 12.-Device according to one of claims 9 to 11, characterized in that the wavelength of the incident signal is kilometric while the wavelength of the modulated signal is decametric. 13.- Device according to one of claims 9 to 12, characterized in that the dimensions of the transmitting antenna (11) of the station are chosen to obtain a minimum intensity of the incident signal in a predetermined height range at - above the transmitting antenna. 14.-Device according to one of claims 9 to 13, characterized in that the activation circuit (23) is adapted, on the one hand, to activate the electrical supply means (25) during a time of selected activation (tl) and, on the other hand, to inhibit the electrical supply means (25) during a selected blocking time (t2).  15.- Device according to claim 14, characterized in that the blocking time is at least equal to a predetermined duration and at most equal to the duration of presence of the object at the antennae of the station.  16.-Device according to one of claims 9 to 15, characterized in that the identification means comprise a modulator (284) connected, on the one hand, to a memory (283) containing the identification code of the cell and on the other  <Desc / Clms Page number 17>  part, to an oscillator (281) to deliver the modulated signal (SM) to the transmitting antenna (21) as well as control means (27) of the oscillator suitable for activating it in the presence of a condition predetermined. 17.-Device according to claim 16, characterized in that the station control means are adapted to emit an incident signal modulated by a predetermined authentication code and in that the control means (27) of the oscillator of the cell are able to compare the authentication code, after demodulation of the incident signal, with a reference authentication code, said predetermined condition for activating the oscillator being the concordance between the authemiiticar code. ion received and the reference authentication code. 18.-Device according to one of claims 9 to 17, characterized in that the object comprises at least two cells arranged on the object and adapted to define together the identification code.