CA2141507C - Coded identification device for an object or person, and process for producing such a device - Google Patents

Abstract

Coded device for identifying an object or a person, comprising an information carrier (10) made of a material resistant to mechanical, thermal and chemical attack, and information (14) engraved in the form of graphic symbols on one side (12) of the support, this information being previously encrypted or encrypted using a public code with reserved keys.

Description

CODE DEVICE FOR IDENTIFYING AN OBJECT OR A
PERSONFt. ,, AND F ~ Rn ~~ n ~ pnm REALIZING SUCH A DEVICE
The invention relates to a coded identification device.
tion of an object such as for example a vehicle or a good furniture, or a person.
There are situations in which parts usual identification of property or people can be destroyed or made illegible, either voluntarily, either involuntarily, as for example in cases of theft of a vehicle or accident (plane crash, explosion, vehicle or building fire, etc.) It also happens that identification documents be the object of attempts to modify or falsification, facilitated by the fact that the information appearing on these documents are most often "in the clear" and directly readable and understandable by people.
There is therefore a need for devices or parts identification of objects or people, which resist well risks of destruction and attempted modification, or falsification.
The purpose of invent_Lon is to identify tion that meets this need.
The invention also relates to a device for this type, which includes accessible protected information only to authorized or authorized persons.
The present invention relates to a coded device identification of an object or a person, comprising:
- an information medium produced in a matter having high characteristics of resistance to mechanical, thermal and chemical attack; and - localized areas of the support for carrying information of ~ = unalterable lesson, this information being first encrypted or encrypted using a code of a so-called type "public" with keys reserved for authorized persons, and being

2 then carried on the support in the form of symbols graphics readable by automatic reading means, the information being encrypted or encrypted using a coding algorithm matching digital codes to alphanumeric signs including letters of the alphabet and numbers from 0 to 9 and then transforming these numeric codes by a complete non-polynomial function.
The present invention also relates to a method for make a coded device for identifying an object or l0 of a person, comprising the following stages:
- realizes: r an information support in a matter having high characteristics of resistance to mechanical, thermal and chemical attack, the support having localized areas for carrying information so unalterable;
- encrypt or encrypt this information using a code of a type called "public" with keys reserved for people authorized, the information being encrypted or encrypted at using a coding algorithm matching codes 20 numeric to alphanumeric signs including letters of the alphabet and numbers from 0 to 9 and then transforming these numeric codes pair a complete non-polynomial function; and - carry the encrypted or encrypted information on the medium in the form of graphic symbols readable by automatic reading means.
The device according to the invention offers the advantages combined:
- to resist mechanical, chemical and thermal, 30 - to be completely illegible and incomprehensible to the naked eye, - effectively protect the information it contains against attempts to modify and falsify cation, - to be readable by means of self-reading matic, 2a - and to reserve access to the information it contains to authorized persons provided with equipment appropriate reading and processing of information.
Preferably, the graphic symbols are those of a ur barcode ~ advanced type such as that known as PDF designation 417.
Such a bar code makes it possible to represent in the form encoded a relatively large number of data in a reduced space (e.g. 1000 characters or alpha-lo numeric in a: surface of a few square centimeters).
Preferably, according to another characteristic of the invention, the information is encrypted using a coding algorithm matching digital codes with alphanumeric signs including the letters of the alphabet and the numbers from 0 to 9 and then transforming these codes numerical by a complete non-polynomial function.
This function can be of the type a = b ~ mod (de), where a is the encrypted information, b the numerical code from a sign to ,. ~ ,; ffrcr n cc1- "n nnmt, rP nhni ~ i arbitrarily x'1.4-150 '

3 and d and e are arbitrary chosen prime numbers-is lying.
Such a way of encrypting information is extremely safe and resists attempts to decipher frement. In addition, it allows quick access to information.
training for everyone who has the keys coding.
In a particular embodiment of the invention, the aforementioned support is made of ceramic and / or metal, and the encrypted information is engraved in the support for example by means of a laser beam or by machining.
The device according to the invention has many applications.
- it can constitute a plate vehicle identification, which is then fixed in a non-removable way on a non-removable element of the vehicle cule, - it can constitute a plate identification of a person, the information provided on the support then comprising at least the name of this person and, for example, date and place of birth, its address, and possibly its description and a face aon photography, - it can also constitute a plate identification of movable property, for example a ta-bleau, a valuable object, an item of furniture, etc.
The device according to the invention is therefore es-intended to facilitate the identification of a object or of a person who have been subject to condi-extreme situations such as those that may result accident, explosion, fire, shock violent, etc.
It can also be used to preserve the secret about the identity of a person on whom we have taken from blood or an organ, when accompanying ? ~ 14-i50 '~

4 container containing the blood or organ removed.
The invention will be better understood and others characteristics, details and advantages of this will read more clearly upon reading the description which follows, made, ~ as an example with reference to the-attached sins in which.
the fi ~ 3ure 1 is a schematic side view of a device according to the invention;
fiç ~ ure 2 is a schematic top view of this device, shown on a smaller scale, the fiç ~ ure 3 schematically represents the re-diffuse flectances: ~ bars and spaces in the code used in the device of figure 2.
The device shown in Figure 1 has the shape of a rectangular or square plate 10, of which the thickness is typically of the order of a few milli meters and whose surface is a few centimeters squares for example.
This brochure can be made in one cé
ramic, for example of the non-oxide type such as Si3N4, resistant to temperatures above 1500'C envi Ron.
The surface of this ceramic can be engraved by means of a laser beam, making it possible to carry loca-the surface of the material at very high temperature and oxidize it. Rapid cooling of the material can then result in a quenching causing a vitri-fication, oxidation and / or vitrification results in health by a chanc ~ ement of color.
This treatment thus makes it possible to train on the surface 12 of the plate 10 of the very localized zones 14 whose stroke = _ur can contrast quite strongly with that of the rest of the surface 12 of the wafer.
We can also use a plate of ceramic, of the oxide or non-oxide type, on which deposits a thin layer of a material, reflecting or no, different color. One-off machining allows _ 214-150 then eliminate: r locally this thin layer and to achieve the same result as before.
As a variant, the plate 10 can be made of tal and is then preferably coated with a thin layer

5 of very curing material that we machine or engrave locally in the aforementioned manner.
The information that is brought to the sur-face 12 of the plate 10 are first encrypted or encrypted, then transformed into graphic symbols of the barcode type, preferably of an advanced type, for be readable by means of automatic reading.
Information encryption can proceed as follows.
- we replace each alphanumeric character information (a letter of the alphabet, a number between 0 and 9, a punctuation mark or writing) by a digital code using by example the universally widespread ~~ SCII code, - then we apply to these digital codes a coding function which can be a non po function complete lynomial of type bCmod (de) where b is an infor numeric mation to encrypt, it is a chosen number arbi trairement, d and e are chosen prime numbers arbitrarily.
For example, the word CAFE to encrypt.
its digital toansformation in ASCCI code is for example the following.
C = ~ E3; A = 41; F = 46; E = 45.
The function is applied to these digital codes coding above, for example by choosing c - 3, d 5 and e - 11 and we obtain the information chif brothers al, a2, a3 and following a4.
al - 433 modulo 55 - 32 a2 - 413 modulo 55 - 06 a3 - 463 modulo 55 - 41 a4 - 453 modulo 55 = 45 The m.ot CAFE is therefore written in encrypted form - 214-150'7

6 as follows . 32064145 Deciphering this coded information is only possible if the coding keys c are available, d and e. Otherwise, the decryption attempts will last would be for a very large number of centuries, assuming that the most powerful computer resources are used.
The for. ~ Ction of coding can therefore be known or public, but knowledge of the keys will be reserved for authorized or authorized persons. These co keys dage can be provided to people read, not in direct readable or understood form sensitive, but saved in permanent memories nentes, so that they can be used by authorized persons without their having actually knowledge of coding keys. Of course, it is possible to use different keys to encrypt a set of information, these keys being associated ciées at nive ~ iux different empowerment. So a no one empowered at the lowest level will have the knowledge or .The provision that a key, allowing to decrypt part of an encrypted message, a per-sounds empowered at an intermediate level will have the knowledge or the disposition of two keys, allowing the decryption of two parts of the message, and one sounds empowered at the highest level will have the knowledge sance or the arrangement of all the coding keys, allowing to decipher the whole message.
The information thus encrypted is then transformed into: barcode type graphic symbols which are engraved; or indelibly registered and unalterable on the surface of the plate 10.
One can in particular use a barcode or graphics code like the one known under the name PDF417, which was developed by SYMBOL
TECHNOLOGIES, NY, USA, and which represents more than a thousand alphanumeric characters on a surface of a few ceni ~ square meters while ensuring the 214150 '

7 possibility of reading by automatic means.
The visual asp of the information coded by the PDF417 is shown schematically as an example in figure 2.
The PDF417 code, the characteristics of which are known to those skilled in the art and will not be recalled here only briefly, allows to include in a representation graph such as that of FIG. 2, a number of rows of coded data between 3 and 90 and one number of coded data columns between 1 and 30.
The maximum density of coded characters is, depending on the data compression modes used, from around 100 to 300 bytes approximately per square centimeter.
This allows to engrave, on an area of a few hundred-square meters, all the information needed to the identification of an object such as a motor vehicle for example, or a person. It is even possible to include in this area the coded representation of a photograph ~ _e of a person's face (which responds, after compression, to about one hundred bytes).
It is of course necessary that a gra symbol phique as cE ~ him of figure 2, engraved on the surface 12 of a plate ~ 10 of ceramic or ap material can be read safely and quickly by automatic reading means. This requires that the engraved surface 12 of the plate presents certain ca optical characteristics which will be described in ref Refer to Figure 3.
This figure is a graph representing sche-matically the variations in diffuse reflectance of the engraved surface 12 of the plate 10, along a di-rection de bala ~ Tage or lecture, assuming that the diffuse reflectance of the etched surfaces 14 is less higher than that of non-etched parts of the surface 12.
This diffuse reflectance is defined by 1e 214.150 ' s ratio of radiation backscattered by the surface studied diea and radiation backscattered by a material lon, for example magnesium oxide or sulphate barium, the two backscattered radiations being measured under the same lighting and observation conditions, the axes of lighting and observation being in principle at 45 'from each other, one of these axes being perpendicular to lighted surface area.
The reflectance curve R shown in fi Bure 3 shows that, to guarantee a reliable reading and fast graphic symbols, reflectance of par etched ties 14 of the surface 12 must remain between predetermined limit values R1 and R2, and that the re diffuse flectance ~ unetched parts of this on face must also remain between pre-determined R3 and R4, the minimum difference in reflect-tance between the engraved and non-engraved parts in front of plus be greater than a predetermined value.
In addition, the maximum variation of reflectance on an engraved surface or on a surface not engraved remains less than a fraction of this diff minimum reflectance between the engraved parts and not engraved. It is still necessary that the maximum variation of reflectance on all of the engraved surfaces remains less than one = _ fraction of this minimum difference between engraved and non-engraved surfaces and that similarly, the maximum reflectance variation on all of the sur unetched faces remain less than a fraction of this minimum difference in reflectance between surfaces engraved and not engraved.
For example, and assuming that the reflec-diffuse tance is measured in percent, we will have R1 - 25 ~, R2 - 30 ~, R3-R2> 20 or 35 ~ depending on the size of the engraved spaces, the maximum variation of flectance on an engraved surface or on a surface not engraved to be less than 1/4 of this difference R3-R2, the maximum variation of reflectance on ~ l4iSA '~

all of the engraved surfaces or all of the unetched areas to be less than half of this difference R3-R2.
In general, the device according to the invention is designed to effectively resist mechanical, thermal and chemical attack, which allows on the one hand to avoid its destruction when it is subject to extreme conditions resulting for example a crash, fire or explosion, and on the other hand to prevent its modification or its falsification tion.
Being less destructible than goods or people to whom: It can be associated, it constitutes a identifier of these goods or these persons.
It can also be used to preserve the professional secret: znel. this is for example the case of donations or samples of blood, biological substances, organs, etc. The device according to the invention can then be associated with a container containing the product or the organ removed, and understand in encrypted form and graphically coded the identity of the donor, that of the cin, the surgeon or the establishment that performed the direct debit, etc. In this application, it is less the information medium must be in one form ceramic or metallic, and it can more simply be made of plastic, which will facilitate the engraving or printing of coded information.

Claims (13)

1. Coded device for identifying an object or of a person, including:
- an information medium produced in a matter having high characteristics of resistance to mechanical, thermal and chemical attack; and - localized areas of the support for carrying information in an unalterable manner, this information being first encrypted or encrypted using a code of a so-called type "public" with keys reserved for authorized persons, and being then carried on the support in the form of symbols graphics readable by automatic reading means, the information being encrypted or encrypted using a coding algorithm matching digital codes to alphanumeric signs including letters of the alphabet and numbers from 0 to 9 and then transforming these numeric codes by a complete non-polynomial function. 2. Device according to claim 1, in which the graphic symbols correspond to those of a bar code of an advanced type. 3. Device according to claim 2, wherein the bar code of an advanced type is that known under the designation PD 417. 4. Device according to claim 1, in which said function is of a type a = bc mod (de), where a is a encrypted information, b is a numeric code of a sign alphanumeric to encrypt, it is a chosen number arbitrarily, and d and e are chosen prime numbers arbitrarily. 5. Device according to any one of the claims.

1 to 4, in which the figures given on the support and the support itself have reflectances of predetermined values, which differ from one another by value greater than a predetermined minimum. 6. Device according to any one of claims 1 to 5, in which the support is ceramic, metal or ceramic and metal. 7. Device according to any one of the claims 1 to 6, characterized in that the encrypted information or encrypted are engraved in the support. 8. Device according to any one of claims 1 to 7, constituting an identification plate of a vehicle, fixed in a non-removable manner on a non-removable from the vehicle. 9. Device according to any one of claims 1 to 7, constituting an identification plate of a person, the information carried on the support including at minus a person's name. 10. Device according to any one of the claims 1 to 7, constituting an identification plate of a good furniture. 11. Device according to claim 7, in which the encrypted or encrypted information is engraved in the support by means of a laser beam or by machining. 12. Device according to claim 9, in which the information on the medium includes a date, a place of birth, an address and a photograph of face. 13. Method for producing a coded device identification of an object or a person, including following steps:
- create an information medium on a subject having high characteristics of resistance to mechanical, thermal and chemical attack, the support having localized areas for carrying information so unalterable;
- encrypt or encrypt this information using a code of a type called "public" with keys reserved for people authorized, the information being encrypted or encrypted at using a coding algorithm matching codes numeric to alphanumeric signs including letters of the alphabet and numbers from 0 to 9 and then transforming these numeric codes pan a complete non-polynomial function; and - carry the encrypted or encrypted information on the medium in the form of graphic symbols readable by automatic reading means.