FR2798208A1 - ELECTRONIC CARD COMPRISING IN MEMORY AN IDENTIFICATION OF ITS HOLDER - Google Patents

Abstract

The invention concerns an electronic card with non-volatile storage wherein are stored the card bearer's identification characteristics, for comparison of said characteristics with characteristics introduced during an authenticating sequence. Dynamic signature characteristics of the bearer are stored in the non-volatile storage (26). The card further comprises a zone (12) for producing a signature to be authenticated, and processing means (14) for supplying dynamic characteristics of the signature, means for comparing (24) the signature dynamic characteristics with the characteristics recorded in the non-volatile storage (26), and means for powering the processing means and/or the comparing means outside a reader designed for reading data in the card.

Description

ELECTRONIC CARD COMPRISING <B> IN </ B> MEMORY <B> ONE </ B> IDENTIFICATION <B> OF </ B> <B> SOUND </ B> HOLDER The invention relates to <B> to </ B > an electronic card com containing in memory an identification of its holder.

The electronic cards <B> to </ B> memory and / or <B> to </ B> micropro cessor, sometimes called "cards <B> to </ B> chip", are often custom, especially for applications banking or control 'access. The customization generally results in a personal code in memory of the card and / or data relating to the holder on the card itself, such as a photograph of the cardholder or his signature.

In most cases, data representing the incumbent must involve a person responsible for authentication. For example, this compares the signature made on a separate sheet, such as a payment or registration sheet, with the signature on the card. This verification offers a very limited guarantee, firstly because of the risk of error in the auditor's assessment and, secondly, because the signatures are imitable by fraudsters.

Moreover, to compare the code in card memory with the code memorized by the holder, it is necessary to use <B> to </ B> a reader <B> to </ B> keyboard, and for the comparison between code entered by the user <B> to </ B> using the keyboard and the code in memory of the card, this code must be presented on the output terminals of the card. This presentation of the code on output terminals constitutes a significant risk of fraud. In addition, the introduction of the card in a reader is a troublesome constraint.

To avoid the presentation of the code on the output terminals of the card, it is known to provide the latter with a permanent memory containing dynamic characteristics the signature of the holder, a detection zone IEC 60050 - International Electrotechnical Vocabulary - Details for IEV number 511-21-32 Industrial electroacoustics / Electroacoustics / Transducer / Microwave / Microwave / Microwave / Electromagnetic field 5603-7 / B> authenticate and compare them with the characteristics in memory, and means to provide an authentication signal according to the result of the comparison ent e dynamic characteristics in terms of dynamic characteristics detected.

We know that the dynamic characteristics of a signature are practically inimitable. Indeed, if the geometry sorting a signature can be imitated relatively easily, the dynamic characteristics of a signature, such as pressure exerted at each point (or at certain points) on the writing medium, the time of signature, the speed and acceleration at each point or at certain points and changes of direction made when one signs are parameters that a third party can hardly reproduce.

In addition, the technique of detecting the dynamic characteristics of the signature of the holder requires the use of a moderate capacity memory and the means used for reading the dynamic signature information are simple.

but such a card obliges <B> to </ B> endow reader means so that the card holder can proceed <B> to </ B> a signature while the card is inserted in the reader. In other words, the user has only a fraction of the surface of the card, the dimensions of which are intrinsically weak, to affix his signature. In addition, the manipulation of the card while it is inserted into the reader poses difficult problems to resolve, especially for cards to contact. Indeed, the manipulation of the card to make signatures may move this card and, therefore, alter the connection between the contacts of the card and a connector in the reader.

The invention overcomes <B> to </ B> these disadvantages. The card according to <B> 1 1 </ B> invention is characterized in that it comprises a means for allowing the average supply of treatment or comparison means outside a reader dest '<B>' to < / B> read information about the map. Thus, signa ture can be performed in any place, because example on independent support of the card reader.

The power supply allows either to keep in memory the dynamic characteristics of the signature, or to keep in memory the authentication of this card.

In one embodiment, which allows an immediate comparison between the dynamic characteristics of the signature performed for the authentication and the dynamic characteristics of the permanently recorded signature, the card comprises a receiver antenna capable of being inductively fed, this An antenna supplying electrical power to a processing circuit and a microprocessor of the card to perform the comparison.

In this embodiment, for use the card is first called <B> to </ B> a support on which the card must be placed, this support comprising a transmitting antenna for the induction supply of the antenna receiver of the card. Then if the card is of the type <B> to </ B> contact, it is introduced in a reader <B> to </ B> contact, which allows validation or not, depending on the result of the authentication and, if the card has been authenticated, its use.

Alternatively, the card includes an energy source such as a stack or accumulator to record dynamic characteristics and to compare them, using a microprocessor, with the recorded characteristics.

In one embodiment, which allows the use of a low capacity power source, only the dynamic characteristics of the signature are recorded but the <B> comparison to 1 </ B> using the microprocessor of the card is performed when it is introduced into a reader which provides it with energy necessary for the operation of the microprocessor. In one embodiment, the electrical energy required to store the dynamic characteristics of the signature and / or the power supply of the circuits making it possible to compare these characteristics. dynamic characteristics with those in permanent memory of the card, is obtained <B> to </ B> using piezoelectric or pyroelectric means. This embodiment is especially favorable when the detection of dynamic characteristics is effected by means of a piezoelectric membrane, for example a polyvinylidene fluoride sheet. In this case it is, for example, the pressure exerted on this sheet which creates, in addition to the useful signals, the energy needed to supply. It is also possible to use the pyroelectric effect which is generally manifested in piezoelectric materials <B>; to this effect, it is possible, for example, to provide that the user presses his finger on the card so that heat thus provided creates the necessary electrical energy.

For some applications such as cards to be used once, the dynamic signature characteristics and / or the result of the authentication can be kept in memory for a long time.

However, for cards that must be used several times, as is generally the case, preferably the dynamic characteristics of the signature or authentication are kept in memory of the card for a limited time, example of the order of a minute. This provision is favorable to the security of use of the card. Indeed, if for example, the card is stolen after the signature of the authentication, the risk of fraudulent use will be reduced. In addition, keeping in memory for a limited time allows the use of technologies that do not require <b> to </ b> provide significant power supplies in the card.

For the purpose of entering the signature for permanent storage and / or authentication, for example, a sheet of piezoelectric polymer is provided, which is a film of fluoride film. nrinylidene, rec # Du- verte, on both sides of parallel conductive lines, the lines of the first face having a different direction of the direction of the lines on the other side. Under these conditions, the surface of the piezoelectric sheet has as many detection points as points of intersection between the conductive leads of the two faces. The pressure exerted on the piezoelectric sheet generates a potential difference which is detectable at each point of the sheet. The detection network constituted by the piezoelectric sheet and the conducting lines also makes it possible to easily analyze various dynamic parameters of the signatures, such as the speed of the writing, the accelerations and the changes of direction.

In a variant, which is of easier construction, to avoid detections in a multiplicity of points, two superposed piezoelectric sheets are provided, one being covered on one side with parallel conducting lines and the other with also being covered with conductive lines parallel to each other but in different directions, in particular perpendicular to the conductive lines applied to the first piezoelectric sheet. However, <B> to </ B> the difference of the previous embodiment in each sheet, the conductive lines even numbers are all connected to a single terminal while the number lines are connected to another terminal. Thus, the connection to the dynamic signature analysis circuit is performed only through four electrodes. The pressure exerted to effect the signature causes an alternating power supply of the terminals which makes it possible to determine, besides the pressure exerted at each point, the direction and direction of the movements of the instrument used to carry out the signature.

In another variant, two leaves are used, each having parallel conductive lines on each face and with different directions on both faces, and when a stylus presses at a point on one face, a conductive line on this face comes into contact with a <B> the </ B> conductor of the other face, which causes a short circuit indicat 'the passage of the stylus at this point. This economical embodiment, since it is not necessary to provide piezoelectric sheet and measure the potential difference in each point <B>, however, it does not measure the pressure of a stylus or pen . However, it has been found that, without this parameter, the other <b> dy - </ b> namic characteristics of the signature allow the <B> to </ B> authenticate <B> '- </ B > cation with a sufficient degree of reliability and security against fraud.

The signature for authentication will be done with a stylus that does not permanently mark the card, or with an erasable ink pen or a pencil.

The invention also relates to a circuit for <B> to </ B> electronic card <B> to </ B> permanent memory, characterized in that includes a permanent memory for storing the dynamic characteristics of the signature of the holder , processing means having inputs for signals representing a signature and providing dynamic characteristics of a signature to authenticate, dynamic characteristic comparison means of the signature to B / C to </ B> to authenticate with the characteristics recorded in permanent memory, and means for enabling the supply of electrical energy to the processing means and / or the comparison means outside a card reader.

Preferably, this circuit is such that it keeps in memory the signals provided by the processing means or signals provided by the comparison means during a limited terrp.

Other characteristics and advantages of the invention will become apparent with the description of some of its embodiments, this being done with reference to the drawings below, in which <B>: </ B> FIG. 1 is a schematic diagram of a card conforming to the invention, FIG. 2 is a diagram of a card according to the invention, figure <B> 3 </ B> is a diagram of the card's signature detection part for a variant of FIG. 1, FIG. 4 is a top view of FIG. / B> and the figure <B> 5 </ B> is a view from below of the figure <B>. </ B> Exemplary embodiments of "The invention that will be described with the figures relate < This card is intended for <B> to </ B> bank applications and / or <B> to </ B> a bank card with the standard format of a credit card. access controls.

The <B> 10 </ B> card has on one of its faces, a sheet of which one face is apparent to allow an authentication signature. This sheet 12 comprises a piezoelectric polymer covered, on one of its faces, for example the visible face, conductive lines (not shown in detail) on the other of its faces, conductive columns (also not shown). The intersection of the rows of the columns forms a network of points. When a pen or stylus presses against the apparent face of the sheet, this pressure creates, at each point, a potential difference between the line and the column concerned and this potential difference represents the pressure applied. In addition, the network of points allows to know, <B> at </ B> each moment, the position of the tip of the writing pen For the analysis of the dynamic characteristics the signature is provided a conventional processing circuit 14 com with entries <B> 161, 162, </ B> etc., 16n, connected to the conductive lines and inputs <B> 181, 182, 18 </ B> p connected to the conductive columns.

The dynamic characteristics which are taken into account the circuit 14 are, in addition to the pressure exerted at each point or at selected points, the speed of writing at each point, or at certain points, the acceleration, the radial accelerations and tangential, the duration of the signature, and the changes of direction (the angles) of the signature.

These dynamic characteristics provided by the processing circuit 14 are introduced into a temporary memory 20.

The data of the memory 20 is applied to the inputs 22 of a microprocessor 24 comprising, in a permanent memory 26, the prerecorded dynamic characteristics of the signature of the holder. This microprocessor 24 is, in a conventional manner, connectable by contacts <B> 28, </ B> such as those corresponding to the ISO standard <B> 7816, to </ B> a card reader <B> to </ B> > contacts. The <B> 28 </ B> contacts are on the face of the card 12 which is opposite to the face on which the signature sheet 12 is.

The sheet 12 is, for example, arranged in the area usually provided for signing on credit cards (Figure 2). In other words, it is not necessary to provide additional space in addition to those provided on credit cards.

In the embodiment shown in Figures <B> 3, </ B> 4 and <B> 5, </ B> af in <B> d 1 </ B>, avoid the large number (n <B> + p) < Connections of the sheet 12 to the circuit 14, there are only four connections 40, 42, 44 and 46 (Figures 4 and <B> 5). </ B>

To obtain this result, the sheet 12 comprises two piezoelectric membranes 48 and <B> 50. On the upper face 48 of the sheet 48, a double network <B> 52 </ B> of parallel lines is provided. which is shown in Figure 4. The lines of this network are, in this example, according to the width of the sheet 12. These lines are equidistant. They are grouped into two subsets <B>: </ B> the first subset includes lines 541, 543, and so on. odd number and the second subset includes lines 542, 54.1, etc. of even number. The lines of the first subset are all connected to terminal 40, whereas the lines of the second subset are all connected to terminal 42.

The second piezoelectric sheet <B> 50 </ B> has on its underside <B> 501, </ B> the network <B> 56 </ B> shown in FIG. <B> 5, </ B> which is similar to the <B> 52 </ B> shown in FIG. 4, but in a perpendicular direction. In other words, the lines <B> 58 </ B> of the network <B> 56 </ B> are parallel to each other and according to the length of the sheet 12. The lines <B> 581, 583, </ B> etc. . of odd rank are connected <B> to the terminal 44 while the lines <B> 582, 58.1, </ B> and so on. of even rank are connected <B> to </ B> terminal 46.

The lower face of the membrane 48 is covered by an electrode <B> 60 </ B> (Figure <B> 3) to </ B> the mass. Similarly, the upper face of the piezoelectric membrane <B> 50 </ B> covered with a metal electrode carried <B> to </ B> the mass.

In order to be able to correctly distinguish the direction of movement of the writing pen, in each network <B> 52, 56, </ B> it is expected that the distance of an electrode from a moon rank parity donated <B> to 1 </ B> next electrode of the other parity is substantially different from the distance separating the latter electrode from the next electrode of the first parity. For example, an odd electrode is followed by an even electrode <B> at </ B> a distance <B>. </ B> while the distance <B> D2 </ B> separates this even electrode from the next electrode of odd rank is <B> to </ B> a distance <B> D2 </ B> greater than <B> to D1. </ B> For example, the distance between electrodes 542 and 543 is substantially greater < B> to </ B> the distance between the electrodes 543 and 544, and so on. In this way when the stylus moves from left <B> to </ B> right, the shortest distance between two time pulses corresponds <B> to </ B> a first signal on terminal 40 and a second signal on the limit <B>. </ B> In the opposite case, that is for a movement from right <B> to </ B> left, the shortest time distance corresponds to <B> to </ B> a signal which appears first on the electrode 42 and then on the electrode 40.

The combination of the data provided with the two piezoelectric mem branes provides an indication of the direction and direction of movement of the stylus performing the signature. The two piezoelectric sheets also provide pressure information. The direction and the direction are obtained by the determination of the moments of appearance of the signals at the terminals 40 and 42 as well as at the terminals 44 and 46. The direction depends on the order of appearance of the signals on the terminals 40 and 42 only on terminals 44 and 46. These signals also provide an indication of speed and acceleration.

Compared to the embodiment shown in Figure <B> 1, </ B> the example shown on the 'Ligures <B> 3, </ B> and <B> 5 </ B> does not provide indications on the position of the signature on the sheet <B>. </ B> But this information is not very significant for the identification of the dynamic characteristics of the signature.

According to an important provision of the invention, provision is made for supply means allowing the temporary operation of the processing circuit 14 and possibly the microprocessor 24 in order to enable the recording of dynamic characteristics of the signature and / or the supply of an authorization signal, independently of a reader which must be introduced later card <B> 10. </ B> In this way, the card holder can sign without constraint on any support or on a suitable support.

this ef <B> f </ B> and, in one embodiment (not shown) <B>, </ B> the card comprises a receiving antenna intended to <B> to </ B> be supplied with electrical energy by induction by a transmitting antenna, and the antenna of the board supplies electrical energy circuits 24. In this embodiment, the reading means (not shown) comprise two parts, <B> to </ B> namely, on the one hand , a support with the transmitting antenna, and on which the user can realize his signature for the authentication, and, on the other hand, the reader proper for the reading of the card <B> to </ B> contacts In this case, the comparison is made after the signature has been realized, and the memory 20 automatically empties from <B> to </ B> 1, resulting from the comparison. On the other hand, the <I> if </ I> of the authentication is kept in a preferred memory <B> of the microprocessor 24.

This preservation of the authentication signal in the microprocessor memory 24, or in another memory, is preferably performed for a limited time, for example <B> 30 </ B> seconds or minute, so that the card can not be used fraudulently when it comes to a card must be used several times.

This last characteristic, according to which the authentication signal must be kept for a limited time in memory, applies regardless of the power mode used for the circuits 14 and / or 24. It also applies in the case where other means <B> dl </ B> imentation are provided as described below.

is also noted that, regardless of the power supply, the dynamic characteristics of the signature are kept in the temporary memory only for the time sufficient for comparison with the characteristics recorded in the memory. B> 26. </ B> After this comparison, microprocessor 24 provides an invalidation <B> or </ B> signal.

The memory 20 is a random access memory. The temporary storage of information consists, in one example, <B> to </ B> provide a delay means, for example controlled by an internal clock or the discharge of a capacitor, and <B> to </ B> proceed <B> to </ B> an erasure contained in the memory 20 after the lapse of the prescribed time.

likewise, when the authorization signal is temporarily stored, provision is also made for a means for erasing this authorization signal after the lapse of a time determined by a delaying means such as a clock or the discharge of a capacitor.

According to yet another embodiment, the card <B> 10 </ B> com carries its own power source so as to allow the dynamic characteristics of the signature and / or the authentication to be stored, and this outside a reading device. This internal source is, for example, constituted by a battery or an accumulator. To minimize the power of the power source, it is preferable that it is provided only for the operation of the processing circuit 14 but not for the operation of the microprocessor 24. In this case, the dynamic characteristics of the signature are stored in the temporary memory 20, preferably for a limited time as indicated above. The authentication is then carried out when the card is inserted into a suitable reader which powers the microprocessor 24.

For the supply, it is also possible to use a piezoelectric sheet, for example <B> to </ B> the piezoelectric sheet (s) provided (s) ) for zone 12.

Energy can also be provided by the pyroelectric effect. In this case, it is preferable to use, for the detection of the dynamic characteristics of the signature, a piezoelectric sheet which also has pyroelectric characteristics.

For the exploitation of the pyroelectric effect, in one example we reserve a zone of the card on which a finger is pressed and the heat provided by the finger pressure produces the electrical energy necessary for the operation of the circuit 14 and / or the microprocessor 24.

It is important to note that the invention is compatible with a validable card by its identification number, combination of a validation by the signature and by the identification number constituting a high security against a fraudulent use of the card.

It will also be appreciated that the invention encompasses the combined use of dynamic and static, i.e., geometric, characteristics of the signature for the authentication of the card. Whatever the embodiment, the signal resulting from the comparison of the dynamic characteristics of the signature <B> - </ B> authenticating with the characteristics recorded in permanent memory may or may not allow to continue a transact 'with a apparatus such as a card reader. For example, a reader can, during a dialogue with the card, find, during a period of authorization, validate information in a temporary memory of the card and to follow the transaction after the expiration of this period of time. self-regulation.

According to one embodiment, the validation signal is capable of causing total or partial inhibition of one of the functions, or means, of the card, for example inhibition of a response <B> to </ B> a signal of mutual recognition or inhi bition <B> dl </ B> application, in the case of an iapplicative card.

this effect, the card comprises, in this mode of realization, means of total or partial inhibition of functions or means of this card. Inhibition, or blocking, can be triggered after several unsuccessful validations. Deblocking means may be provided as an option.

signal resulting from said comparison makes it possible, in one embodiment, to open a dialogue with a reader and to continue its operation, for example by means of a logic gate located in the circuits of the card, this door opening or closing an electrical contact in connection with the contact pads of the card, or with a communication interface.

The maintenance of the logic gate in the open position can be relayed by the reader, once the dialogue has been established, despite the expiration of the authorization period.

Claims (1)

<U> CLAIMS </ U> <B> 1. </ B> Electronic Card <B> to </ B> a permanent memo card in which cardholder identification features are stored for the purpose of comparing these characteristics with characteristics introduced during an authentication sequence, characterized in that dynamic characteristics the signature of the cell being stored in the permanent memory <B> (26), the card includes a zone ( 12) for the realization of the signature <B> to </ B> to authenticate, as well as processing means (14) for providing dynamic characteristics of the signature <B> to </ B> to authenticate, means of comparison ( 24) dynamic characteristics of the signature <B> to </ B> to authenticate with recorded characteristics <B> '</ B> in permanent memory <B> (26), </ B> and means to allow the feeding processing means and / or comparison means outside a reader for reading information in the map. 2. Card according to claim <B> 1, </ B> characterized in that it comprises receiving antenna for feeding the processing means and / or comparison means in the card. <B> 3. </ B> Card according to claim <B> 1, </ B>, characterized in that it comprises an internal source of energy for supplying the processing means and / or the comparison means. 4. Card according to claim 3, characterized in that the power source is of the piezoelectric and / or pyroelectric type. <B> 5. </ B> Card according to claim 4, characterized in that it comprises at least one piezoelectric sheet for detecting the dynamic characteristics of the signature <B> to </ B> authenticate and in that this The piezoelectric sheet is also used to produce the electrical power needed to supply processing means and / or comparison means. Card according to any one of the preceding claims, characterized in that it comprises a temporary memory (20) for the dynamic characteristics of the signature <B> to </ B> authenticate or for a signa '. validation provided by the comparison means. <B> 7. </ B> Card according to claim 6, characterized in that the period of time, in the temporary memory, of the dynamic characteristics <B> to </ B> authenticate or Validation signal is at most about one minute. <B> 8. </ B> A card according to any one of the preceding claims, characterized in that, the latter being of the <B> to </ B> contact type, the zone (12 ) signing for authentication is distinct from the <B> (28) </ B> area of the contacts. <B> 9. </ B> Card according to any one of the preceding claims, characterized in that the zone (12) of signature comprises a piezoelectric sheet covered with parallel conductive lines on one side and parallel conductive lines on the other face, the lines the two faces having different directions, one of the dynamic characteristics being constituted by the writing pressure at each point or at selected points. <B> 10. </ B> Card according to any one of claims <B> 1 to 8, </ B> characterized in that the zone (12) of signature comprises two superposed piezoelectric sheets, the upper face of the upper sheet (48) having parallel conductive lines and the lower face of the bottom sheet <B> (50) </ B> also having parallel lines therebetween but different in direction from the conductive lines of the top sheet, and in each of these sets of parallel lines, the lines of even rank are connected <B> to </ B> the first bound (42 <B>; </ B> 46) and the rows of odd rank are connect <B> to </ B> a second bound (40 <B>; </ B> 44). <B> 11. </ B> Card according to any one of claims <B> 1 </ B> <B> to 8, </ B> characterized in that the zone (12) of signature comprises two sheets of which each has parallel conductive lines, these lines, of different directions, contacting <B> 1 </ B> one with the other <B> at the location of a writing pen. Card according to any one of the preceding claims, characterized in that it comprises means of total or partial inhibition of at least one function or of a means <B> to </ B> within This map, this inhibition being controlled by result of the comparison between the dynamic characteristics of the signature <B> to </ B> authenticate and the characteristics stored in permanent memory. <B> 13. </ B> Device for <B> to </ B> be used with a card according to claim 2, characterized in that it comprises an emitter antenna for powering the receiving antenna of the card, and than a support. 14. Circuit intended <B> to </ B> an electronic card <B> to </ B> permanent memory, characterized in that it comprises a perma nent memory for storing dynamic characteristics of the signature of the holder, processing means having inputs for signals representing a signature and providing dynamic characteristics of a signature <B> to </ B> authentic, means for comparing the dynamic characteristics of the signature <B> to </ B> to authenticate with the characteristics stored in permanent memory, and means for enabling the processing means and / or the comparison means to be supplied outside a reader intended to read information in the map.