(19)
(11)EP 1 456 760 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
10.09.2008 Bulletin 2008/37

(21)Application number: 03713173.7

(22)Date of filing:  14.02.2003
(51)Int. Cl.: 
G06F 12/14  (2006.01)
G06F 19/00  (2006.01)
G06F 21/00  (2006.01)
H04L 9/00  (2006.01)
(86)International application number:
PCT/SG2003/000033
(87)International publication number:
WO 2004/015579 (19.02.2004 Gazette  2004/08)

(54)

METHOD AND APPARATUS OF STORAGE ANTI-PIRACY KEY ENCRYPTION (SAKE) DEVICE TO CONTROL DATA ACCESS FOR NETWORKS

VERFAHREN UND VORRICHTUNG ZUR SPEICHERUNG EINER ANTIKOPIER-SCHLÜSSEL-VERSCHLÜSSELUNGS-(SAKE-)EINRICHTUNG ZUR STEUERUNG DES DATENZUGRIFFS FÜR NETZWERKE

PROCEDE ET EQUIPEMENT DE DISPOSITIF DE STOCKAGE DE CHIFFREMENT DE CLE D'ANTIPIRATAGE POUR CONTROLER L'ACCES A DES DONNEES SUR DES RESEAUX


(84)Designated Contracting States:
AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IT LI LU MC NL PT SE SI SK TR

(30)Priority: 31.07.2002 SG 200200171
04.10.2002 SG 200200227
08.01.2003 US 339696

(43)Date of publication of application:
15.09.2004 Bulletin 2004/38

(73)Proprietor: Trek 2000 International Ltd
Singapore 508769 (SG)

(72)Inventors:
  • OOI, Chin, Shyan, Raymond
    Singapore 508769 (SG)
  • LIM, Lay, Chuan
    Singapore 650322 (SG)
  • POO, Teng, Pin
    Singapore 460044 (SG)
  • TAN, Henry
    Singapore 456458 (SG)

(74)Representative: Howe, Steven 
Reddie & Grose 16 Theobalds Road
London WC1X 8PL
London WC1X 8PL (GB)


(56)References cited: : 
EP-A- 0 945 777
WO-A1-01/33317
US-A- 5 442 704
US-A1- 2002 010 857
EP-A1- 1 156 697
DE-A1- 10 057 697
US-A- 6 047 376
US-A1- 2002 029 343
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description

    FIELD OF THE INVENTION



    [0001] The present invention relates to the field of network communications. More specifically, the present invention relates to a secured access to restricted information over the networks.

    BACKGROUND



    [0002] The piracy and illegal copying of software and other digital media has become extremely pervasive and currently results in billions of dollars in lost revenue for media and software owners worldwide. This problem is compounded by the advent of faster and more technologically advanced computers, the development of inexpensive mass storage media (i.e. CDs, DVDs), as well as copying devices such as CD writers, which aid in various aspects of digital piracy.

    [0003] Each technological breakthrough seemingly results in a new and better way to illegally copy intellectual property belonging to another. Examples of digital piracy include: the copying of proprietary software to sell to others, the installing of a single proprietary software package on several different systems, placing a copy of proprietary software on the Internet, or even downloading copyrighted images from the Internet.

    [0004] While digital piracy is fairly common among many end users who have lawfully purchased the software, large-scale piracy typically occurs at a reseller level. For instance, a reseller may duplicate and distribute multiple copies of a software program, a digital audio file or a digital video file to different customers. These counterfeit versions are sometimes passed on to unsuspecting customers. Hardware distributors have been known to preload different systems using a single software package. In such instances, customers are either not provided with original manuals, diskettes and/or compact discs (CDs) or are simply supplied with pirated copies of the same.

    [0005] Numerous methods to combat the rampant problem of digital piracy have been devised. One of the methods is the used of trialware to restrict usage of a software product. Trialware may be implemented by either programming an expiration date or a usage counter into a software program. Such a scheme limits the use of a software product to a particular duration or a number of trial times, respectively, after which the protected application can no longer be launched. Users are then forced to either purchase the full version of the product or to quit using it altogether.

    [0006] Hardware keys are another type of anti-piracy device that is commonly used to prevent illegal use of software. Hardware keys are devices that are plugged into selected ports of a computer. Once the software is executed, it then detects the presence of a hardware key in a similar manner to detecting other hardware devices (such as a printer, monitor or a mouse). Programming the software such that it only operates when an appropriate hardware key is attached prevents illegal use of the software. As the number of hardware keys distributed to end users correspond to the number of seat licenses purchased, the software will not work when installed on another system without the requisite hardware key.

    [0007] Another common anti-piracy technique is to require the entry of a certain registration key that is supplied by the software company before the software can be installed. Traditionally, the registration keys are given only with the original software package, although some are issued electronically. Unfortunately, there is nothing to prevent the holder of the registration key from installing the software on multiple systems. In addition, many of the electronic registration keys are based on the user's personal information (i.e. such as the user's name), therefore, some hackers have developed programs to calculate registration keys for random names. Document WO 01/23987 describes a personal storage device for authenticating a user to a remote computational device.

    [0008] Unfortunately, as with the use of the registration key, all of the above anti-piracy systems (and many others) are easily circumvented by hackers. A common method of combating these anti-piracy techniques is to disassemble the coding of the Application Programming Interface (API) to assembly language and, thereafter, decompile the assembly language into programming language. With the knowledge gained from the program flow, the hacker can easily re-write the program or set certain conditions within the program itself, such that it bypasses all the anti-piracy authentication algorithms.

    [0009] In view of the foregoing, it is extremely desirable to have an anti-piracy system that cannot be easily re-programmed or bypassed by computer hackers or other digital pirates, It is also desirable to have an anti-piracy system that can be integrated with exiting mass storage devices.

    SUMMARY OP THE INVENTION



    [0010] The invention is defined in the Independent claims. Some preferred features of the invention are defined in the dependent claims.

    [0011] According to one aspect of the present invention, a method of SAKE is provided in which SAKE is coupled to a host or client system and SAKE obtains user's biometric identity information through its biometric sensor. Users biometric identity information, such as fingerprints, is verified according to the biometric templates stored in an internal memory unit of SAKE. Various initialization information including public key associated with the user is retrieved from the Internal memory unit of SAKE and the initialization information is provided to an information provider or internet Service Provider ("ISP") via a computer network such as internet, through the host system. Upon verifying the initialization information, a network communication is established between SAKE and the information provider. When SAKE obtains information from the information provider, the information is encrypted and stored in a flash memory within SAKE.

    [0012] Additional features and benefits of the present invention will become apparent from the detailed description, figures and claims set forth below.

    BRIEF DESCRIPTION OF THE DRAWINGS



    [0013] The present invention will be understood more fully from the detailed description given below and from the accompanying drawings of various embodiments of the invention, which, however, should not be taken to limit the invention to the specific embodiments, but are for explanation and understanding only.

    Figure 1 illustrates a schematic of an authentication system to verify a password from a host in accordance with one embodiment of the present invention.

    Figure 2 illustrates a schematic of an authentication system to verify a password from a host in accordance with a further embodiment of the present invention.

    Figure 3 illustrates a schematic of an authentication system to verify a password from a host in accordance with another embodiment of the present invention.

    Figure 4 illustrates a schematic of an authentication system to verify a password from a host in accordance with yet another embodiment of the present invention.

    Figure 5 illustrates a method for authenticating a password from a host in accordance with one embodiment of the present invention.

    Figure 6 illustrates a schematic of a computer system using an anti-piracy file manager in accordance with a further embodiment of the present invention;

    Figure 7 illustrates a schematic of an authentication system for receiving data from a web server in accordance with another embodiment of the present invention.

    Figure 8 illustrates a network configuration in accordance with one embodiment of the invention.

    Figure 9 is a block diagram illustrating a SAKE device in accordance with one embodiment of the present invention.

    Figure 10 is a flow chart illustrating a method of providing data access control over a network in accordance with one embodiment of the present invention.

    Figure 11 is a flow diagram showing various steps of an embodiment of the authentication method of the present invention.


    DETAILED DESCRIPTION



    [0014] An apparatus and method for providing data access control over Internet are discussed.

    [0015] In the following description, for purposes of explanation, numerous specific details are set forth to provide a thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that these specific details may not be required to practice the present invention. In other instances, well-known circuits and devices are shown in block diagram form to avoid obscuring the present invention.

    [0016] It is understood that the present invention may contain transistor circuits that are readily manufacturable using well-known art, such as for example CMOS ("complementary metal-oxide semiconductor) technology, or other semiconductor manufacturing processes. In addition, the present invention may be implemented with other manufacturing processes for making digital devices.

    [0017] Figure 1 illustrates an authentication system 10 to verify a password 12 from a host 14 in accordance with one embodiment of the present invention. Authentication system 10 includes a first storage unit16, a read-only memory (ROM) unit 18 and a microcontroller 20. Microcontroller 20 is coupled to host 14, first storage unit 16, ROM unit 18 and a second storage unit 22. Microcontroller 20 is preferably coupled to host 14 through a Universal Serial Bus (USB) controller.

    [0018] In other embodiments of the present invention, ROM unit 18 may be formed as part of microcontroller 20. Furthermore, both first storage unit 16 and second storage unit 22 may be one of a number of mass storage devices, including hard drives, floppy disks, or removable flash memory devices, such as the ThumbDrive manufactured by Trek 2000. In addition, the two storage units may be utilized in one physical structure to form a single mass storage device. The mass storage device may also be placed with microcontroller 20 to form a single chip.

    [0019] First storage unit 16 stores an authentication sequence 24, which is used to verify password 12. An authentication algorithm 26 to authenticate password 12 with authentication sequence 24 is programmed onto ROM unit 18. In addition, ROM unit 18 preferably comprises a shutdown algorithm 28. Because these algorithms and other data are hard coded, the contents of ROM unit 18 cannot be decompiled or altered. Upon receiving password 12, microcontroller 20 loads and executes authentication algorithm 26 to verify password 12 with authentication sequence 24. Access to second storage unit 22 is permitted only if password 12 is verified.

    [0020] Password 12 may be entered by a user or a software program executed by host 14 after receiving a query from microcontroller 20. Because authentication algorithm 26 is hard coded onto ROM unit 18, copying or decompiling and changing the software program resident on host 14 does not breach the copy protection provided by the present invention. It will be apparent to one skilled in the art that password 12 may be a private string of characters, a sequence of communication protocols or some other security protocol known only to an authorized user. In addition, password 12 and authentication sequence 24 may form part of a biometric authentication process by using a user's fingerprints, iris, face, or voice as authentication means.

    [0021] Password 12 may also be programmed into the software running on host 14 and recognizable only by authentication algorithm 26 and therefore not known to an end user. As described above, authentication algorithm 26 is preferably implemented on hardware or firmware (such as ROM unit 18) so that it is tamper resistant; that is, authentication algorithm 26 will be either extremely difficult to reverse engineer or extract data from, and therefore extremely difficult to bypass.

    [0022] Shutdown algorithm 28 is preferably implemented as a deterrent against brute force attacks by shutting down the entire system if a series of incorrect passwords is received by microcontroller 20. An authentication system programmer may define the maximum number of incorrect passwords allowed before the system shuts down. Shutdown algorithm 28 may also be programmed to not accept anymore password entries or a specified amount of time. By using shutdown algorithm 28, trial and error methods used by brute force application programs to identify password 12 would become an extremely tedious process for hackers. The algorithm would therefore deter potential hackers from even attempting to identify password 12.

    [0023] Second storage unit 22 is used to store programs and/or files, which are required for a program on host 12 to run. Examples of such files include executable programs such as a software installer, digital audio files, digital video files, image files, text files, and library files. Microcontroller 20 allows access to second storage unit 22 from host 14 only if the correct password 12 has been received by microcontroller 20.

    [0024] Although illustrated in this embodiment as separate entities, it should be evident to a person skilled in the art that microcontroller 20, first storage unit 16, ROM unit 18 and second storage unit 22 may be combined in a number of ways. For example, microcontroller 20, first storage unit 16, ROM unit 18 and second storage unit 22 may be implemented on a single semiconductor chip. In an alternative embodiment, microcontroller 20 and ROM unit 18 may be implemented on a chip that is separate from the storage units.

    [0025] The present invention therefore has great flexibility of design that may easily be altered depending on a user's requirements. For example, on one hand, the use of multiple chips may allow different vendors to manufacture different parts of the authentication system. On the other hand, fabricating the present invention onto fewer chips (or a single chip) may be less expensive and provide better performance. In addition, if ROM unit 18 and microcontroller 20 are located on the same chip, it may be more difficult to separate the ROM to read the data stored.

    [0026] Figure 2 illustrates an authentication system 50 to verify a password 52 from a host 54 in accordance with a further embodiment of the present invention. Authentication system 50 comprises a first-storage unit 56, a ROM unit 58 and a microcontroller 60. Microcontroller 60 is coupled to host 54, first storage unit 56, ROM unit 58 and an encoder 62. Encoder 62 is further coupled to a second storage unit 64. First storage unit 5b stores an authentication sequence 66, which is used to verify password 52. An authentication algorithm 68 to authenticate password 52 is programmed onto ROM unit58. ROM unit 58 preferably includes a shutdown algorithm 70.

    [0027] Upon receiving password 52, microcontroller 60 loads and executes authentication algorithm 68 to verify password 52 with authentication sequence 66. Access to second storage unit 64 is permitted only if password 52 is verified. Shutdown algorithm 70 preferably shuts down the entire system if a series of wrong passwords is received by microcontroller 60. An authentication system programmer determines the maximum number of incorrect password attempts allowed.

    [0028] Data to be read from or written onto second storage unit 64 is first decrypted or encrypted respectively by encoder 62. Many different encryption schemes may be used by encoder 62, including International Data Encryption Algorithm (IDEA), Data Encryption Standard (DES) encryption. Triple Data Encryption Standard (3-DES) encryption, and Pretty Good Privacy (PGP). By encrypting the contents of a second storage unit 64, a hacker will not be able to make sense of the contents even if he manages to read the contents bypassing microcontroller 60 (for example, by using a probe). After password 52 has been authenticated, a decoder (not illustrated) may be used to decrypt the contents of second storage unit 64.

    [0029] Alternatively, the data stored in second storage unit 64 may be protected by hash coding. In addition, authentication sequence 66 is preferably encrypted or hashed as well prevent hackers from unraveling authentication sequence 66. This may be accomplished without requiring an additional encoder if first storage unit 56 is located within second storage unit 64.

    [0030] Figure 3 illustrates a schematic of an authentication system 100 to verify a password 102 from a host 104 in accordance with another embodiment of the present invention. Authentication system 100 comprises a ROM unit 106 and a microcontroller 108. Microcontroller 108 is coupled to host 104, ROM unit 106 and an encoder 110. Encoder 110 is further coupled to a storage unit 112. An authentication algorithm 114 to authenticate password 102 is programmed onto ROM unit 106. An authentication sequence 116 to verify password 102 is hard coded into authentication algorithm 114. ROM unit 106 preferably comprises a shutdown algorithm 118.

    [0031] As described in previous embodiments, upon receiving password 102, microcontroller 108 loads and executes authentication algorithm 114 to verify password with authentication sequence 116. Access to storage unit 112 is permitted only if password 102 is verified. Shutdown algorithm 118 is preferably used to shut down the entire system if a series of incorrect passwords is received by microcontroller 108.

    [0032] By hard coding authentication sequence 116 directly into authentication algorithm 114, possibly in multiple places, modification of authentication sequence 116 becomes substantially more difficult. In order to change a hard code authentication sequence, not only is recompilation necessary (if using a compiled language), but also sufficient understanding of the implementation is required to ensure that the change will not cause program failure. Such a measure makes it difficult for a hacker to re-program authentication system 100.

    [0033] Figure 4 illustrates an authentication system 150 to verify password 152 from a host 154 in accordance with another embodiment of the present invention. Authentication system 150 comprises a read-only memory (ROM) unit 156 and a microcontroller 158. Microcontroller 158 is coupled to host 154, ROM unit 156 and an encoder 160. Encoder 160 is further coupled to a storage unit 162. Data to be read from or written onto storage unit 162 is first decrypted or encrypted respectively by encoder 160. Alternatively, hash coding may be employed to protect the data stored in storage unit 162.

    [0034] Storage unit 162 is made up of two types of data storage areas: a public storage area 164 and a private storage area 166. An authentication sequence 168, which is used to verify password 152, is stored in private storage area 166. An authentication algorithm 170 to authenticate password 152 is programmed onto ROM unit 156. ROM unit 156 also contains a shutdown algorithm 172. Public storage area 164 and private storage area 166 may be created by under-declaring the memory size available on storage unit 162.

    [0035] Take for example a storage unit with physical addresses ranging from 000 to 1000, if only physical addresses 000 to 500 are declared to an operating system (OS) such as Windows, on host 154, the OS will not be aware of the presence of physical addresses 501 to 1000. Under such circumstances, data stored within physical addresses 000 to 500 will be accessible to any user. This area is known as a public storage area. Conversely, undeclared physical addresses 501 to 1000 form a private storage area since these addresses are only be available to microcontroller 158 and can only be accessed by an authorized user or software program.

    [0036] Under non-secure operating conditions, any user may instruct host 154 to read data from or write data onto public storage area 164. However, if a user wishes to access private storage area 166, the user or the software program must first enter password 152, which is then sent to microcontroller 158 for authentication. Upon receiving password 152, microcontroller 158 executes authentication algorithm 170 to verify password 152 with authentication sequence 168. Access to private storage area 166 is permitted only if password 152 is verified. Shutdown algorithm 172 shuts down the entire system if a series of incorrect passwords is received by microcontroller 158.

    [0037] Figure 5 illustrates a method 200 for authenticating a password from a host in accordance with one embodiment of the present invention. An authentication sequence is first provided in a block 202 and preferably stored in a first storage unit. Also provided, in another block 204, is an authentication algorithm, which is stored in a ROM unit. After receiving a prompt from the host, a password is entered in by a user or by a software program. The password is then received in a block 206 by a microcontroller that executes an authentication algorithm to verify the password with the authentication sequence in a decision block 208.

    [0038] If the password is verified in decision block 208, access to a private area, such as second storage unit in the above-described embodiments, will be permitted in a block 210. The user is then able to read from or write onto the second storage unit, which is preferably encrypted. If the password is not verified in decision block 208, the user will be denied access to the second storage unit and method 200 will end in a block 212. Alternatively, if the password is incorrect, the user may be given additional chances to enter the right password. However, system is preferably shut down if a series of incorrect passwords is received by the microcontroller.

    [0039] Figure 6 illustrates a schematic of a computer system 250 using an anti-piracy file manager 252 in accordance with a further embodiment of the present invention. Anti-piracy file manager 252 is coupled to an anti-piracy authentication engine 254 and a storage unit 256. Anti-piracy manager 252 answers requests from a number of software programs 258 that request different authentication schemes from anti-piracy authentication engine 254. Access to storage unit 256 is guarded by an authentication system 260. In this exemplary system, the flexibility of the present invention allows for authentication of many different types of software programs at the same time through anti-piracy file manager 252.

    [0040] Figure 7 illustrates a schematic of an authentication system 300 for receiving data from a web server 302 in accordance with another embodiment of the present invention. Authentication system 300 is coupled to a host 304, which is connected to web server 302, typically by using either a dial-up or a broadband connection. Host 304 is coupled to authentication system 300, preferably, via a USB connector. Examples of host 304 include a personal computer (PC), a personal digital assistant (PDA), a Wireless Application Protocol-enabled (WAP-enabled) mobile phone, and a tablet.

    [0041] To retrieve data from web server 302, a password received by host 304 is verified by authentication system 300. The password is typically entered by a user or by software the host, if the password is entered by the user, the authentication system may also be configured to accept a biometrics password, such as a fingerprint or a retina scan. If the verification is successful, authentication system 300 sends a request through host 304 for access to web server 302. Upon receiving the request, web server 302 grants access to a web page having the secured data. The data may be in the form of a music file or an online book or a software program. Because the authentication algorithm in authentication system 300 is hard coded, an unauthorized user will not be able to circumvent or change the verification scheme in authentication system 300 and, hence, will be unable to access the data on web server 302.

    [0042] In another embodiment of the present invention, the password is embedded in the data to be retrieved from the internet. Host 304 sends a request for the data to web server 302. Upon receiving the request, web server 302 sends the password embedded in the requested data to authentication system 300 for verification. If the verification is successful, authentication system 300 allows host 304 to access the data, upon where it may be displayed or executed. In a preferred embodiment, the data from web server 302 is encrypted. Decryption of the data is carried out in authentication system 300 before in host 304 or storage in authentication system 300.

    [0043] Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention. Furthermore, certain terminology has been used for the purposes of descriptive clarity, and not to limit the present invention. The embodiments and preferred features described above should be considered exemplary, with the invention being defined by the appended claims.

    Overview of Storage Anti-piracy Key Encryption device ("SAKE")



    [0044] According to one aspect of the present invention, a method of SAKE is provided in which SAKE is coupled to a host or client system and SAKE obtains user's biometric identity information through its biometric sensor. User's biometric identity information, such as fingerprints, is verified according to the biometric templates stored in an internal memory unit of SAKE. Various initialization information including public key associated with the user is retrieved from the internal memory unit of SAKE and the initialization information is provided to an information provider or Internet Service Provider ("ISP") via a computer network such as Internet, through the host system. Upon verifying the initialization information, a network communication is established between SAKE and the information provider. When SAKE obtains information from the information provider, the information is encrypted and stored in a flash memory within SAKE.

    [0045] In one embodiment, SAKE is a storage and anti-piracy device that includes onboard biometric verification capability. SAKE has universal connectivity capabilities, such as USB connectors. High-speed data transfer and large memory capacity are other advantages of SAKE. For example, SAKE may have the memory capacity of one gigabytes and have an access speed up to one gigabit per second. A more detailed discussion of SAKE will be discussed later.

    [0046] Figure 8 illustrates a network configuration 800 in accordance with one embodiment of the invention. Network configuration 800 includes multiple SAKEs 802, host systems, Internet 810, and various information providers, content providers and/or ISPs. The host systems, in one aspect, includes personal computer ("PC") 804, laptop 805, personal digital assistant ("PDA") and other digital processing systems, such as servers, mini-computers, mainframe computers, point of sale machines, workstations, et cetera. Internet 810, in another embodiment, may be an Intranet, wide area network ("WAN") and/or local area network ("LAN"). Information providers include online transaction 820, Internet sides 830, sales of services 840, personal medical information 850, e-learning materials 860, library 865, publisher 870, music 875 and TV games and movies 880. It is apparent to one of ordinary skilled in the art that other functional blocks may be added to network configuration 800.

    [0047] The content provider of online transaction 820 includes various online sale transactions, which includes online sales of merchandises, software, information and network services over the Internet. In one embodiment, SAKE 802 provides a secured transaction, which involves access, purchasing and download the product, between the user and the information provider. An advantage of using SAKE is to prevent unauthorized, rampant copying of commercial information.

    [0048] The content provider of Internet sites 830 includes various restricted web sites, which require, for example, memberships to access the information posted on the restricted web sites. In one embodiment, SAKE 802 provides a controlled access to restricted Internet sites. In another embodiment, SAKE 802 provides a method of controlled distribution of information received by SAKE. An advantage of using SAKE in this case is to prevent unauthorized access.

    [0049] The content provider of Services 840, in one aspect, includes various online services that provide support, resources and/or upgrades. In one embodiment, SAKE 802 provides a method of providing services and/or upgrades to clients who are authorized and/or registered for the services. An advantage of using SAKE in this case is to prevent unauthorized party to receive services.

    [0050] The content provider of medical data 850, in one aspect, contains medical information, such as a restricted hospital web site. In one embodiment, SAKE 802 provides a secured method to retrieve personal medical information over the Internet from the content provider for medical data 850. An advantage of using SAKE in this case is to prevent unauthorized party to access personal medical data.

    [0051] The content provider of e-learning 860, in one aspect, includes various online educational materials that are either posted on the web page or downloaded from the web site. In one embodiment, SAKE 802 provides a secured method to download various educational and/or learning materials to from the content provider to various clients who are authorized and/or registered to receive the educational materials. An advantage of using SAKE in this case is to prevent unauthorized party to download the educational materials from the content provider of e-learning 860.

    [0052] The content provider of library 865 and publisher 870, in one aspect, includes various online books and articles that either can be checked out or purchased. In one embodiment, SAKE 802 provides a secured method of purchase or checkout by downloading digital a copy of book and/or article for authorized users. An advantage of using SAKE in this case is to prevent unauthorized party to obtain copies of books and articles posted on the web sites.

    [0053] The content provider of Music 875 and television games/movies 880, in one aspect, includes various online digital music and games/movies that either can be checked out or purchased. In one embodiment, SAKE 802 provides a secured method of purchase or check out a digital copy of music, games and/or movies for authorized users. An advantage of using SAKE in this case is to prevent unauthorized party to obtain copies of music, games and/or movies posted on the web sites.

    [0054] In operation, when, for example, a user desires to purchase a software from a website, a SAKE first authenticates the user, which may involve biometric identification process. After the identity of the user is verified, SAKE notifies the website with an access request and security codes. Upon acknowledgement of access request and security codes, the website, which could act through an ISP, establishes a network communication with SAKE over the Internet 810. An encrypted public key is subsequently forwarded from SAKE to the website to confirm the true identity of user. Once the user identity is confirmed by the website, it sends the requested software to SAKE via SAKE's host system. Upon receiving the software, it is directly stored in the flash memory of SAKE with limited or no trace in the host system.

    [0055] An advantage of using SAKE, function as an anti-piracy device, is to prevent unauthorized copying of information over the Internet. Another advantage of using SAKE is to store the downloaded contents directly into SAKE only, thereby there is no traces on the host system after SAKE is disconnected from the host system. Another advantage is to employ personal and biometric information to authenticate users before the users are given access to quality contents over a network, such as Internet or Intranet.

    [0056] Figure 9 is a block diagram illustrating a SAKE 900 in accordance with one embodiment of the present invention. SAKE 900 includes a micro-control unit ("MCU") 901, flash memory 922, USB connector (plug) 916 and biometric sensor 920. MCU 901 further includes a processor 902, internal memory 904, tamper proof unit 906, encryption/decryption unit 908, hashing algorithm 910, biometric verification 912 and USB controller 914. In one embodiment, a processor 902, internal memory 904, tamper proof unit 906, encryption/decryption unit 908, hashing algorithm 910, biometric verification 912 and USB controller 914 are fabricated on a single die. Various buses 930-938 are used to couple various units in SAKE 900. It is apparent to one of ordinary skilled in the art that other functional blocks may be added to SAKE 900.

    [0057] Processor 902 is coupled to buses 930-932 for communicating information to and from various components. Processor 902 includes microprocessor, processor, central processing unit, or digital processing unit such as Pentium, PowerPC, Alpha and the like. Processor 902 controls the data flow of SAKE 900 through executing instructions. In one embodiment, processor 902 executes navigation software, which may be stored in internal memory 904, for controlling the data flow.

    [0058] Internal memory 904, in one embodiment, is a flash memory designed to store authentication data, such as public keys, private keys, biometric templates, et cetera. It should be noted that public keys, private keys, and biometric templates are loaded into internal memory 904 during the setup or initialization of SAKE 900. Internal memory 904 is coupled to processor 902 through dedicated bus 932 for fast data store and fetch. In another embodiment, Internal memory 904 is coupled to processor 902 through system bus 930. Biometric templates include fingerprint and/or iris templates. In another embodiment, internal memory 904 stores the navigation software, which is responsible to control data flow between ISP and SAKE. The navigation software is also responsible to retrieve data from flash memory 922 and then display the data.

    [0059] Biometric sensor 920 is coupled to biometric verification unit 912 via bus 936, wherein biometric sensor 920 detects biometric information or patterns from a user. For example, fingerprint sensor as a biometric sensor detects fingerprint patterns from the user who is currently holding SAKE 900. Once the fingerprint of the user is obtained, it is forwarded from the fingerprint sensor to biometric verification unit 912 for authenticating the user. Upon receipt of the biometric information, biometric verification unit 912 fetches biometric templates, such as fingerprint templates, from internal memory 904 via processor 902 and authenticates the biometric information just received against biometric templates. The result of the authentication is forwarded to processor 902. It should be noted that the biometric templates are loaded during the initialization of SAKE.

    [0060] USB controller 914 is coupled to system bus 930 and USB connector 916 via a dedicated bus 938. USB controller 914 is designed to control communication between SAKE 900 and the host system, not shown in Figure 9. USB convector 916, in one embodiment, is a USB plug that is capable to directly connect to a USB port of host system. USB connector 916 is designed to support entire weight of SAKE while it is plugged in a USB port. It is further noted that when SAKE is plugged in a USB port of the host system, only a portion of SAKE is inserted into the host system.

    [0061] Hashing algorithm 910 is coupled to system bus 930 to perform a hash function. Hashing algorithm 910 is, in one embodiment, a standard hashing algorithm, such as secure hash standard (SHS) and is designed to hash public keys before they are being sent to their destination over the Internet.

    [0062] Flash memory 922 is coupled to MCU 901 via bus 934 and is configured to store large amounts of data. For example, flash memory 922 can store up to one gigabyte. In one embodiment, flash memory 922 has capacity of mass storage and data downloaded from the ISP can be directly stored in flash memory 922. To secure data from hacking, data is encrypted before it is stored in flash memory 922. Encryption/decryption unit 908 is coupled to system bus 930 and coupled to flash memory 922 via bus 934. In one embodiment, Encryption/decryption unit 908, which may be a standard encryption code, encrypts data according to a private key before it stores in flash memory 922. Encryption/decryption unit 908 is also used to decrypt data according a private key after the data is fetched from flash memory 922.

    [0063] Tamper proof unit 906 is coupled to system bus 930. A function of tamper proof unit 906 is designed to erase data stored in internal memory 904 and flash memory 922 when tamper proof unit 906 detects tampering or hacking SAKE using high temperature, voltage, and/or frequency. In one embodiment, tamper proof unit 906 contains sensors that can detect abnormal conditions, such as voltage, frequency and temperature are beyond the specification.

    [0064] Figure 10 is a flow chart 100 illustrating a method of providing data access control over a network in accordance with one embodiment of the present invention. At block 1002, the process couples a control device to a digital processing system. In one aspect, the control device is a SAKE, which includes a USB connector, MCU, flash memory and biometric sensor. The USB connector is used to directly connect to a USB port of digital processing system, which acts as a host system of SAKE. The process proceeds to block 1004.

    [0065] At block 1004, biometric sensor detects user's biometric information and forwards the detected biometric information to biometric verification unit. The verification unit authenticates the detected biometric information against biometric template stored in the internal memory. When the user's identity is authenticated, which means the biometric information such as fingerprint matches with the biometric template, the process moves to block 1006.

    [0066] At block 1006, the process retrieves initialization information from the internal memory. In one embodiment, the initialization information includes a security code and a public key. The security code, which may vary between ISPs, is used to establish an initial communication between SAKE and the ISP. The process proceeds to block 1008.

    [0067] At block 1008, the process forwards the security code to an associated ISP and request to establish communication. Once the communication is formed, the public key is forwarded to the ISP to confirm that the true user is communicating with the ISP. The process moves to block 1010.

    [0068] At block 1010, a communication between SAKE and the ISP is established and ISP is ready to perform user's request. The process moves to block 1012.

    [0069] At block 1012, SAKE receives requested information such as a copy of digital book or a movie. When the requested information is encrypted, the process moves to block 1014.

    [0070] At block 1014, the process stores the encrypted data in the flash memory of SAKE. The process moves to the next block.

    [0071] Figure 11 is a flow diagram showing various steps of an embodiment of the authentication method of the present invention. In a currently preferred embodiment, a user requests and downloads restricted content into a SAKE device assigned to that user from a content server using the authentication process as described below with reference to Figure 11. As described above, the restricted content can be any of a wide variety of information, such as copyrighted materials (e.g., newspapers, books, magazines, music, movies, software, games, etc.), confidential records (e.g., medical, financial), proprietary business information (e.g., personnel files, technical designs, client contacts, etc.), contents that require payment or age verification before access is granted, and any other information requiring access control.

    [0072] In step 1105, to initiate the authentication process, a user accesses a login web page of a content provider utilizing an embodiment of the authentication method of the present invention. Typically, the user navigates the Web using common internet browser software (e.g., Microsoft Internet Explorer) installed on a client computer connected to the Internet. To access the designated login page, the user enters the web page address (e.g., URL address) of the login page or click on a hyperlink or bookmark pointing to that address. Depending on the particular application, the client computer can be a desktop computer, a laptop computer, a personal digital assistant (PDA), a point-of-sale (POS) terminal, a television, a gaming console, a networked kiosk, or any other network-enabled device that allows the user to interact with the content server. In one embodiment, the login page is stored on a content server and is programmed to include a "Login" button or link which, when clicked, causes the content server to generate a command that initiates the authentication process. Accordingly, the user clicks on the "Login" button to start the authentication process.

    [0073] In step 1110, the SAKE device, which in one embodiment comprises a USB plug that is plugged into a USB port of the client computer, receives the command from the content server. This command establishes communication between the content server and the SAKE device. The command also serves to notify the SAKE device that the content server is ready to receive information pertaining to the authentication process from the SAKE device.

    [0074] In step 1115, the SAKE device captures biometric information from the user via a biometric detector that is built into the SAKE device. In a currently preferred embodiment, the biometric detector is a built-in fingerprint sensor on an upwardly-facing surface of the SAKE device. When the user places his/her thumb on the sensor, the thumbprint is captured for verification by the SAKE device, as described in step 1120 immediately below. While fingerprinting is described herein as an identity authentication technique, it is appreciated that other biometric-based techniques, such as iris-scan, can also be used in accordance with the present invention.

    [0075] In step 1120, the captured biometric information is verified against stored biometric template(s) of one or more authorized user(s). In one embodiment, when the SAKE device is assigned to an authorized user, the fingerprint of that authorized user is captured and stored into the SAKE device as a fingerprint template. In an embodiment where multiple authorized users are supported, a separate template is created and stored for each authorized user. Thereafter, when a person wants to access restricted contents on a server for which the SAKE device is assigned, that person's fingerprint can be verified by a fingerprint verification engine in the SAKE device against the stored fingerprint template(s) of the authorized user(s).

    [0076] If in step 1120 it is determined that the captured biometric information (e.g., fingerprint) matches the stored biometric template (or one of the templates in the case of multiple authorized users), then in step 1125, the SAKE device transmits a notification to the content server, indicating to the server that the current user's identity has been authenticated biometrically.

    [0077] In step 1130, the SAKE device receives a device authentication request from the content server. In a preferred embodiment, the content server transmits a device authentication request to the SAKE device upon receiving the notification of user identity authentication from the SAKE device as described in step 1125 above.

    [0078] In step 1135, the SAKE device transmits a device authentication reply to the content server in response to the device authentication request described in step 1130 above. Significantly, the device authentication reply allows the SAKE device and the content server to complete an authentication handshake. The SAKE device is programmed to generate a device authentication reply is characteristics of and is recognizable by the particular content server. Therefore, the reply enables the server to verify that the SAKE device is properly assigned to the user for accessing restricted content on the server. In accordance with a preferred embodiment, the device authentication reply includes multiple authentication sequences, with each sequence being transmitted to the server separately. For example, after transmitting a first authentication sequence, the SAKE device can wait for a confirmation sequence from the server before transmitting the next sequence itself. Any number of sequences can be used in the authentication handshake, allowing for flexibility in customization. In a preferred embodiment, different content servers have different authentication handshakes with their corresponding SAKE devices, so that a given SAKE device assigned for a particular content server will be of no use in accessing restricted content on another content server.

    [0079] In step 1140, the SAKE device receives a key request from the content server. In a preferred embodiment, the content server transmits a key request to the SAKE device when the authentication handshake described above in step 1135 is completed. In other words, when the content server has ascertained that the request for restricted content originates from a legitimate SAKE device properly assigned for that purpose, the server sends a key request to the SAKE device.

    [0080] In step 1145, the SAKE device transmits a first key representative of the user's identity to the content server in response to the key request-described in step 1140 above. This first key enables the server to confirm the user's identity. In a preferred embodiment, the first key is a public key (e.g., as used under the Public Key Infrastructure, or PKI) that uniquely identify the key holder to third parties, such as the content server in this case. In one embodiment, the public key is hashed using a secure hashing algorithm, preferably stored in a non-volatile solid-state memory, before transmission to the content server. It is appreciated that according to the present invention, the key verification can be performed by the content server itself or by a certifying authority ("CA") on behalf of the content server.

    [0081] In step 1150, the SAKE device receives the restricted content from the content server as requested. In one embodiment, the restricted content is received by the SAKE device as one or more data streams. In other words, the content is transmitted from the content server to the SAKE device by streaming.

    [0082] It should be appreciated that according to a preferred embodiment described above, the content server only sends the restricted content to the SAKE device after a successful biometric authentication of the user's identity, a successful authentication handshake between the content server and the SAKE device, and a successful verification of the user's identity using a unique key such as a public key. The tri-level authentication process of the present invention as described provided very strong security protection against unauthorized access of restricted content stored on the content server.

    [0083] In step 1155, the SAKE device encrypts the content received from the content server In a preferred embodiment, the encryption is performed using a second key representative of the user's identity. In one embodiment, the second key is a private key assigned to the user.

    [0084] In step 1160, the SAKE device stores the encrypted content in its memory. The stored content is secured against unauthorized access because it is in encrypted form and cannot be decrypted without the second key (e.g., private key) described above in step 1155. In one embodiment, the encrypted content is stored in a non-volatile solid-state memory.

    [0085] In a preferred embodiment, the SAKE device includes one or more of a voltage detector, a frequency detector and a temperature detector (e.g., thermometer, thermostat) to further protect the stored information against tampering. These detectors monitor the operation parameters of voltage, frequency and temperature. It is appreciated that common hacking techniques involve altering the voltage, frequency and/or temperature of the environment in which a storage device operates in an attempt to gain unauthorized access to the stored data. Thus, according to this embodiment, when the detectors detects that one or more of the operation parameters fall beyond their normal operating ranges as specified, the SAKE device erases or otherwise destroy the encrypted data stored therein, and optionally the first key, the second key and the biometric template. This data self-destruction feature provides a last line of defense against unauthorized access of the restricted content stored in the SAKE device.

    [0086] Importantly, content received from the content server goes directly to the SAKE device and is not stored on the client computer in any form. The internet browser serves as a conduit of data transfer between the content server and the SAKE device. The data transfer is transparent to the user and the content is neither displayed to the user in the browser, nor is the content allowed to be stored on the client computer using the browser interface. In a preferred embodiment, data is transferred by streaming, which provides additional protection against hacking, as portions of a data stream cannot be meaningfully reassembled in case of malicious interception. In one embodiment, encrypted content received from the server is decrypted by the browser (using standard decryption protocols such as DES, AES, 3-DS) and then encrypted by the SAKE device using a private key before storing. In another embodiment, the encrypted content is passed as is to the SAKE device, which can performed additional decryption and/or re-encryption. The restricted content is stored within the SAKE device in encrypted form and cannot be replicated to another storage medium connected to the client computer. Moreover, retrieval of the data is only allowed when the user's identity is authenticated through the biometric detector and verification engine.

    [0087] Once the content is securely stored in the SAKE device, an authorized user can gain access to the content by a successfully passing the biometric authentication, thereby causing the SAKE device to decrypt the stored content and streaming it to the appropriate application program for processing. For example, a music file or a movie file is decrypted and streamed to a media player for playback. An executable file is decrypted and then run from the SAKE device. A document is decrypted for viewing by a viewer/word processing program straight from the SAKE device. Thus, the content remains in the SAKE device and the streaming of the data is under the control of the SAKE device so that unauthorized access is prevented. In another embodiment, the encrypted content is streamed for processing by the appropriate application program without being decrypted. In this embodiment, a customized application program capable of processing the encrypted content is provided.

    [0088] In the foregoing specification the invention has been described with reference to specific exemplary embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than restrictive sense.


    Claims

    1. A method for providing data access control of information transmitted over an information network from an information provider (302) to a digital processing system (304), the information provider (302) being a content provider, which provides content that includes any one selected from a group consisting of: medical data; educational material; books; articles; music; games; and movies, the method comprising:

    coupling (1110) a control device (300) to the digital processing system;

    obtaining (1115,1120) user identification by executing a user authentication process, the user being one of multiple authorized users,

    retrieving initialization information from a first memory unit of the control device (300) when the user's identity is authenticated;

    providing (1125) the initialization information to the information provider (302) via the information network through the digital processing system (304);

    receiving (1130) a device authentication request from the content provider (302) over the information network and, in response thereto, transmitting (1135) a device authentication reply from the control device (300) to the content provider (302) over the information network, said device authentication reply being for completing an authentication handshake between the content provider (302) and the control device (300),

    upon completing the authentication handshake, receiving (1140) a key request from the content provider (302) over the information network and, in response thereto, transmitting (1145) a first key representative of said user from the control device (300) to the content provider (302) over the information network , said first key being for allowing said content server (302) to confirm said user's identity and said first key further being hashed before transmission to the content provider (302) over the information network;

    establishing a communication between the control device (300) and an information provider (302) when an acknowledgement of user identity is received;

    obtaining (1150) said content from the information provider (302);

    encrypting (1155) said content using a second key assigned to the said user of the multiple authorized users ; and

    storing said encrypted content in a second memory unit of the control device (300), wherein the second memory unit is non-volatile memory.


     
    2. The method of claim 1, wherein the coupling the control device (300) to the digital processing system (304) further includes coupling a Universal Serial Bus ("USB") protocol connector of the device to a USB receptacle of the digital processing system (304) to facilitate communication.
     
    3. The method of claim 2, wherein the method further includes connecting the digital processing system (304) to at least one of the internet, an intranet, a wide area network ("WAN") and a local area network ("LAN").
     
    4. The method of claim 3, wherein the obtaining user identification by executing the user authentication process further includes:

    activating a fingerprint detector to detect the user's fingerprint;

    obtaining the user's fingerprint from the fingerprint detector;

    retrieving a fingerprint file from the first memory unit of the control device (300); and

    authenticating the user's fingerprint in response to the fingerprint file.


     
    5. The method of claim 3, wherein the obtaining user identification by executing the user authentication process further includes:

    activating an iris detector to detect the user's iris;

    obtaining a scan of the user's iris from the iris detector;

    retrieving an iris file from the first memory unit of the control device (300); and

    authenticating the user's iris in response to the iris file.


     
    6. The method of claim 1, wherein the providing the initialization information to the information provider further includes:

    retrieving a security code associated with the information provider (302);

    sending the security code to the information provider (302);

    retrieving a public key associated with the information provider (302); and

    hashing the public key before the public key is sent to the information provider (302).


     
    7. The method of claim 3, wherein the obtaining said content from the information provider (302) furtner includes:

    sending an on-line transaction request to the information provider; and

    receiving the information in response to the on-line transaction request.


     
    8. The method of claim 3, wherein the obtaining said content from the information provider (302) further includes:

    sending a request for accessing a restricted Internet site to the information provider (302); and

    receiving said content in response to the request after the request is verified.


     
    9. The method of claim 3, wherein the obtaining said content from the information provider further includes:

    sending a request for service or upgrades to the information provider; and

    receiving said content in response to the request after the request is verified.


     
    10. The method of claim 1, further comprising running navigation software to display said content stored in the second memory unit of the control device.
     
    11. The method of claim 10, wherein the step of running the navigation software comprises:

    retrieving said content from the second memory unit of the device (300); and

    decrypting said content.


     
    12. The method of claim 1, further comprising:

    loading tamper proof code into an execution sequence when one of a voltage, a frequency and a temperature detecting device detects tampering; and

    executing the tamper proof code.


     
    13. The method of claim 12, further comprising erasing data stored in internal memory and flash memory when tampering is detected.
     
    14. A storage and anti-piracy device (300) for providing controlled dissemination of information from an information provider (302) to a digital processing system (304), the information provider (302) being a content provider, which provides content that includes any one selected from a group consisting of: medical data; educational material; books; articles; music; games; and movies, the device (300) being operable to:

    couple (1100) with the digital processing system (304);

    execute (1115,1120) a user authentication process to obtain user identification, the user being one of multiple authorized users;

    retrieve initialization information from a first memory unit of the control device (300) when the user's identity is authenticated;

    provide (1125) the initialization information to the information provider (302) via the information network and through the digital processing system (304);

    receive (1130) a device authentication request from the content provide (302) over the information network and, in response thereto, transmit (1135) a device authentication reply from the control device (300) to the content provider over the information network, said device authentication reply being for completing an authentication handshake between the content provider and the control device;

    upon completing the authentication handshake, receive (1140) a key request from the content provider (302) over the information network and, in response thereto, transmit (1145) a first key representative of said user from the control device (300) to the content provider (302) over the information network , said first key being for allowing said content server (302) to confirm said user's identity and said first key further being hashed before transmission to the content provider over the information network;

    establish a communication between the control device and an information provider when an acknowledgement of user identity is received;

    obtain (1150) said content from the information provider (302),

    encrypt (1155) said content using a second key assigned to the said user of the multiple authorized users; and

    store said encrypted content in a second memory unit of the control device (300), wherein the second memory unit is non-volatile memory.


     
    15. The storage and anti-piracy device of claim 14, wherein the control device (300) comprises a Universal Serial Bus ("USB") protocol connector for coupling the device to a USB receptacle of the digital processing system (304) to facilitate communication.
     
    16. The storage and anti-piracy device of claim 14, wherein the device (300) is operable to execute the user authentication process by:

    activating a fingerprint detector to detect the user's fingerprint;

    obtaining the user's fingerprint from the fingerprint detector;

    retrieving a fingerprint file from the first memory unit of the control device (300); and

    authenticating the user's fingerprint in response to the fingerprint file.


     
    17. The storage and anti-piracy device of claim 14, wherein the device (300) is operable to execute the user authentication process by:

    activating an iris detector to detect the user's iris;

    obtaining a scan of the user's iris from the iris detector;

    retrieving an iris file from the first memory unit of the control device (300); and

    authenticating the user's iris in response to the iris file.


     
    18. The storage and anti-piracy device of claim 15, wherein, to provide the initialization information to the remote information provider, the device (300) is further operable to:

    retrieve a security code associated with the information provider (302);

    send the security code to the information provider (302);

    retrieve a public key associated with the information provider (302); and

    hash the public key before the public key is sent to the information provider (302).


     
    19. The storage and anti-piracy device of claim 14, wherein, to obtain said content from the information provider (302), the device (300) is further operable to:

    send an on-line transaction request to the information provider; and

    receive said content in response to the on-line transaction request.


     
    20. The storage and anti-piracy device of claim 14, wherein, to obtain said content from the information provider (302), the device (300) is further operable to:

    send a request for accessing a restricted internet site to the information provider; and

    receive said content in response to the request after the request is verified.


     
    21. The storage and anti-piracy device of claim 14, wherein, to obtain said content from the information provider (302), the device (300) is further operable to:

    send a request for service or upgrades to the information provider (302); and

    receive said content in response to the request after the request is verified.


     
    22. The storage and anti-piracy device of claim 14, the device (300) being further operable to run navigation software to display said content stored in the second memory unit of the control device.
     
    23. The storage and anti-piracy device of claim 22, the device (300) being further operable, when running the navigation software, to:

    retrieve said content from the second memory unit of the device (300); and

    decrypt said content.


     
    24. The storage and anti-piracy device of claim 14, the device (300) being further operable to:

    load tamper proof code into an execution sequence when one of a voltage, a frequency and a temperature detecting device detects tampering; and

    execute the tamper proof code.


     
    25. The storage and anti-piracy device of claim 24, the device being further operable to erase data stored in internal memory and flash memory when tampering is detected.
     


    Ansprüche

    1. Verfahren zum Bereitstellen einer Datenzugriffssteuerung von über ein Informationsnetz von einem Informationsanbieter (302) zu einem digitalen Verarbeitungssystem (304) gesendeten Informationen, wobei der Informationsanbieter (302) ein Inhaltsanbieter ist, der Inhalt bereitstellt, der irgendwelche ausgewählte aus einer Gruppe aufweist, welche aus folgendem besteht: medizinischen Daten, Unterrichtsmaterial, Büchern, Artikeln, Musik, Spielen und Filmen, wobei das Verfahren folgende Schritte aufweist:

    Verbinden (1110) einer Steuervorrichtung (300) mit dem digitalen Verarbeitungssystem,

    Erhalten (1115, 1120) einer Benutzeridentifikation durch Ausführen eines Benutzerauthentifizierungsprozesses, wobei der Benutzer einer von mehreren autorisierten Benutzern ist,

    Abrufen von Initialisierungsinformationen aus einer ersten Speichereinheit der Steuervorrichtung (300), wenn die Identität des Benutzers authentifiziert wird,

    Bereitstellen (1125) der Initialisierungsinformationen für den Informationsanbieter (302) über das Informationsnetz durch das digitale Verarbeitungssystem (304),

    Empfangen (1130) einer Vorrichtungsauthentifizierungsanforderung vom Inhaltsanbieter (302) über das Informationsnetz und, ansprechend darauf, Senden (1135) einer Vorrichtungsauthentifizierungsantwort von der Steuervorrichtung (300) zum Inhaltsanbieter (302) über das Informationsnetz, wobei die Vorrichtungsauthentifizierungsantwort dazu dient, einen Authentifizierungsaustausch zwischen dem Inhaltsanbieter (302) und der Steuervorrichtung (300) abzuschließen,

    nach Abschluss des Authentifizierungsaustausches, Empfangen (1140) einer Schlüsselanforderung vom Inhaltsanbieter (302) über das Informationsnetz und, ansprechend darauf, Senden (1145) eines ersten Schlüssels, der den Benutzer repräsentiert, von der Steuervorrichtung (300) zum Inhaltsanbieter (302) über das Informationsnetz, wobei der erste Schlüssel dazu dient, es dem Inhaltsserver (302) zu ermöglichen, die Identität des Benutzers zu bestätigen, und wobei der erste Schlüssel ferner vor dem Senden zum Inhaltsanbieter (302) über das Informationsnetz einem Hash-Prozess unterzogen wird,

    Einrichten einer Kommunikation zwischen der Steuervorrichtung (300) und einem Informationsanbieter (302), wenn eine Bestätigung der Benutzeridentität empfangen wird,

    Erhalten (1150) des Inhalts vom Informationsanbieter (302),

    Verschlüsseln (1155) des Inhalts unter Verwendung eines zweiten Schlüssels, der dem Benutzer von den mehreren autorisierten Benutzern zugewiesen ist, und

    Speichern des verschlüsselten Inhalts in einer zweiten Speichereinheit der Steuervorrichtung (300), wobei die zweite Speichereinheit ein nichtflüchtiger Speicher ist.


     
    2. Verfahren nach Anspruch 1, wobei die Verbindung der Steuervorrichtung (300) mit dem digitalen Verarbeitungssystem (304) ferner das Verbinden eines universellen seriellen Bus-("USB")-Protokoll-Verbinders der Vorrichtung mit einer USB-Buchse des digitalen Verarbeitungssystems (304) zur Erleichterung der Kommunikation aufweist.
     
    3. Verfahren nach Anspruch 2, wobei das Verfahren ferner das Verbinden des digitalen Verarbeitungssystems (304) mit mindestens einem von dem Internet, einem Intranet, einem Weitbereichsnetz ("WAN") und einem lokalen Netz ("LAN") aufweist.
     
    4. Verfahren nach Anspruch 3, wobei das Erhalten der Benutzeridentifikation durch Ausführen des Benutzerauthentifizierungsprozesses ferner aufweist:

    Aktivieren eines Fingerabdruckdetektors, um den Fingerabdruck des Benutzers zu erfassen,

    Erhalten des Fingerabdrucks des Benutzers vom Fingerabdruckdetektor,

    Abrufen einer Fingerabdruckdatei aus der ersten Speichereinheit der Steuervorrichtung (300) und

    Authentifizieren des Fingerabdrucks des Benutzers ansprechend auf die Fingerabdruckdatei.


     
    5. Verfahren nach Anspruch 3, wobei das Erhalten der Benutzeridentifikation durch Ausführen des Benutzerauthentifizierungsprozesses ferner aufweist:

    Aktivieren eines Irisdetektors, um die Iris des Benutzers zu erfassen,

    Erhalten einer Abtastung der Iris des Benutzers vom Irisdetektor,

    Abrufen einer Irisdatei aus der ersten Speichereinheit der Steuervorrichtung (300) und

    Authentifizieren der Iris des Benutzers ansprechend auf die Irisdatei.


     
    6. Verfahren nach Anspruch 1, wobei das Bereitstellen der Initialisierungsinformationen für den Informationsanbieter ferner aufweist:

    Abrufen eines Sicherheitscodes, der dem Informationsanbieter (302) zugeordnet ist,

    Senden des Sicherheitscodes zum Informationsanbieter (302),

    Abrufen eines öffentlichen Schlüssels, der dem Informationsanbieter (302) zugeordnet ist, und

    Ausführen eines Hash-Prozesses an dem öffentlichen Schlüssel, bevor der öffentliche Schlüssel zum Informationsanbieter (302) gesendet wird.


     
    7. Verfahren nach Anspruch 3, wobei das Erhalten des Inhalts vom Informationsanbieter (302) ferner aufweist:

    Senden einer Online-Transaktionsanforderung zum Informationsanbieter und

    Empfangen der Information ansprechend auf die Online-Transaktionsanforderung.


     
    8. Verfahren nach Anspruch 3, wobei das Erhalten des Inhalts vom Informationsanbieter (302) ferner aufweist:

    Senden einer Anforderung zum Zugreifen auf eine beschränkte Internetseite zum Informationsanbieter (302) und

    Empfangen des Inhalts ansprechend auf die Anforderung, nachdem die Anforderung verifiziert wurde.


     
    9. Verfahren nach Anspruch 3, wobei das Erhalten des Inhalts vom Informationsanbieter ferner aufweist:

    Senden einer Anforderung für Dienstleistungen oder Aufrüstungen zum Informationsanbieter und

    Empfangen des Inhalts ansprechend auf die Anforderung, nachdem die Anforderung verifiziert wurde.


     
    10. Verfahren nach Anspruch 1, bei dem ferner eine Navigationssoftware ausgeführt wird, um den in der zweiten Speichereinheit der Steuervorrichtung gespeicherten Inhalt darzustellen.
     
    11. Verfahren nach Anspruch 10, wobei der Schritt des Ausführens der Navigationssoftware aufweist:

    Abrufen des Inhalts aus der zweiten Speichereinheit der Vorrichtung (300) und

    Entschlüsseln des Inhalts.


     
    12. Verfahren nach Anspruch 1, welches ferner aufweist:

    Laden eines manipulationssicheren Codes in eine Ausführungssequenz, wenn eine von einer Spannungs-, einer Frequenz- und einer Temperaturerfassungsvorrichtung eine Manipulation feststellt, und

    Ausführen des manipulationssicheren Codes.


     
    13. Verfahren nach Anspruch 12, bei dem ferner in einem internen Speicher und einem Flash-Speicher gespeicherte Daten gelöscht werden, wenn eine Manipulation festgestellt wird.
     
    14. Speicher- und Antipiraterievorrichtung (300) zum Bereitstellen einer gesteuerten Übermittlung von Informationen von einem Informationsanbieter (302) zu einem digitalen Verarbeitungssystem (304), wobei der Informationsanbieter (302) ein Inhaltsanbieter ist, der Inhalt bereitstellt, der irgendwelche ausgewählte aus einer Gruppe aufweist, welche aus folgendem besteht: medizinischen Daten, Unterrichtsmaterial, Büchern, Artikeln, Musik, Spielen und Filmen, wobei die Vorrichtung (300) in der Lage ist, folgendes auszuführen:

    Verbinden (1100) mit dem digitalen Verarbeitungssystem (304),

    Ausführen (1115, 1120) eines Benutzerauthentifizierungsprozesses, um Benutzerinformationen zu erhalten, wobei der Benutzer einer von mehreren autorisierten Benutzern ist,

    Abrufen von Initialisierungsinformationen aus einer ersten Speichereinheit der Steuervorrichtung (300), wenn die Identität des Benutzers authentifiziert wird,

    Bereitstellen (1125) der Initialisierungsinformationen für den Informationsanbieter (302) über das Informationsnetz und durch das digitale Verarbeitungssystem (304),

    Empfangen (1130) einer Vorrichtungsauthentifizierungsanforderung vom Inhaltsanbieter (302) über das Informationsnetz und, ansprechend darauf, Senden (1135) einer Vorrichtungsauthentifizierungsantwort von der Steuervorrichtung (300) zum Inhaltsanbieter über das Informationsnetz, wobei die Vorrichtungsauthentifizierungsantwort dazu dient, einen Authentifizierungsaustausch zwischen dem Inhaltsanbieter und der Steuervorrichtung abzuschließen,

    nach Abschluss des Authentifizierungsaustausches, Empfangen (1140) einer Schlüsselanforderung vom Inhaltsanbieter (302) über das Informationsnetz und, ansprechend darauf, Senden (1145) eines ersten Schlüssels, der den Benutzer repräsentiert, von der Steuervorrichtung (300) zum Inhaltsanbieter (302) über das Informationsnetz, wobei der erste Schlüssel dazu dient, es dem Inhaltsserver (302) zu ermöglichen, die Identität des Benutzers zu bestätigen, und wobei der erste Schlüssel ferner vor dem Senden zum Inhaltsanbieter über das Informationsnetz einem Hash-Prozess unterzogen wird,

    Einrichten einer Kommunikation zwischen der Steuervorrichtung und einem Informationsanbieter, wenn eine Bestätigung der Benutzeridentität empfangen wird,

    Erhalten (1150) des Inhalts vom Informationsanbieter (302),

    Verschlüsseln (1155) des Inhalts unter Verwendung eines zweiten Schlüssels, der dem Benutzer von den mehreren autorisierten Benutzern zugewiesen wurde, und

    Speichern des verschlüsselten Inhalts in einer zweiten Speichereinheit der Steuervorrichtung (300), wobei die zweite Speichereinheit ein nichtflüchtiger Speicher ist.


     
    15. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Steuervorrichtung (300) einen universellen seriellen Bus-("USB")-Protokoll-Verbinder zum Verbinden der Vorrichtung mit einer USB-Buchse des digitalen Verarbeitungssystems (304) zur Erleichterung der Kommunikation aufweist.
     
    16. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Vorrichtung (300) in der Lage ist, den Benutzerauthentifizierungsprozess auszuführen durch:

    Aktivieren eines Fingerabdruckdetektors, um den Fingerabdruck des Benutzers zu erfassen,

    Erhalten des Fingerabdrucks des Benutzers vom Fingerabdruckdetektor,

    Abrufen einer Fingerabdruckdatei aus der ersten Speichereinheit der Steuervorrichtung (300) und

    Authentifizieren des Fingerabdrucks des Benutzers ansprechend auf die Fingerabdruckdatei.


     
    17. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Vorrichtung (300) in der Lage ist, den Benutzerauthentifizierungsprozess auszuführen durch:

    Aktivieren eines Irisdetektors, um die Iris des Benutzers zu erfassen,

    Erhalten einer Abtastung der Iris des Benutzers vom Irisdetektor,

    Abrufen einer Irisdatei aus der ersten Speichereinheit der Steuervorrichtung (300) und

    Authentifizieren der Iris des Benutzers ansprechend auf die Irisdatei.


     
    18. Speicher- und Antipiraterievorrichtung nach Anspruch 15, wobei die Vorrichtung (300) zum Bereitstellen der Initialisierungsinformationen für den fernen Informationsanbieter ferner in der Lage ist, folgendes auszuführen:

    Abrufen eines Sicherheitscodes, der dem Informationsanbieter (302) zugeordnet ist,

    Senden des Sicherheitscodes zum Informationsanbieter (302),

    Abrufen eines öffentlichen Schlüssels, der dem Informationsanbieter (302) zugeordnet ist, und

    Ausführen eines Hash-Prozesses an dem öffentlichen Schlüssel, bevor der öffentliche Schlüssel zum Informationsanbieter (302) gesendet wird.


     
    19. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Vorrichtung (300) zum Erhalten des Inhalts vom Informationsanbieter (302) ferner in der Lage ist, folgendes auszuführen:

    Senden einer Online-Transaktionsanforderung zum Informationsanbieter und

    Empfangen der Information ansprechend auf die Online-Transaktionsanforderung.


     
    20. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Vorrichtung (300) zum Erhalten des Inhalts vom Informationsanbieter (302) ferner in der Lage ist, folgendes auszuführen:

    Senden einer Anforderung zum Zugreifen auf eine beschränkte Internetseite zum Informationsanbieter und

    Empfangen des Inhalts ansprechend auf die Anforderung, nachdem die Anforderung verifiziert wurde.


     
    21. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Vorrichtung (300) zum Erhalten des Inhalts vom Informationsanbieter (302) ferner in der Lage ist, folgendes auszuführen:

    Senden einer Anforderung für Dienstleistungen oder Aufrüstungen zum Informationsanbieter (302) und

    Empfangen des Inhalts ansprechend auf die Anforderung, nachdem die Anforderung verifiziert wurde.


     
    22. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Vorrichtung (300) ferner in der Lage ist, eine Navigationssoftware auszuführen, um den in der zweiten Speichereinheit der Steuervorrichtung gespeicherten Inhalt anzuzeigen.
     
    23. Speicher- und Antipiraterievorrichtung nach Anspruch 22, wobei die Vorrichtung (300) ferner in der Lage ist, wenn sie die Navigationssoftware ausführt, folgendes auszuführen:

    Abrufen des Inhalts aus der zweiten Speichereinheit der Vorrichtung (300) und

    Entschlüsseln des Inhalts.


     
    24. Speicher- und Antipiraterievorrichtung nach Anspruch 14, wobei die Vorrichtung (300) ferner in der Lage ist, folgendes auszuführen:

    Laden eines manipulationssicheren Codes in eine Ausführungssequenz, wenn eine von einer Spannungs-, einer Frequenz- und einer Temperaturerfassungsvorrichtung eine Manipulation feststellt, und

    Ausführen des manipulationssicheren Codes.


     
    25. Speicher- und Antipiraterievorrichtung nach Anspruch 24, wobei die Vorrichtung ferner in der Lage ist, im internen Speicher und im Flash-Speicher gespeicherte Daten zu löschen, wenn eine Manipulation festgestellt wird.
     


    Revendications

    1. Procédé destiné à assurer le contrôle d'accès aux données transmises sur un réseau d'informations à partir d'un fournisseur d'informations (302) vers un système de traitement numérique (304), le fournisseur d'informations (302) étant un fournisseur de contenu, qui fournit un contenu qui comprend n'importe quel contenu sélectionné dans un groupe comprenant : des données médicales, de la matière pédagogique, des livres, des articles, de la musique, des jeux et des films, le procédé consistant à :

    coupler (1110) un dispositif de commande (300) au système de traitement numérique ;

    obtenir (1115, 1120) une identification utilisateur en exécutant un processus d'authentification d'utilisateur, l'utilisateur étant un parmi des multiples utilisateurs autorisés,

    récupérer les informations d'initialisation à partir d'une première unité de mémoire du dispositif de commande (300) lorsque l'identité de l'utilisateur est authentifiée ;

    fournir (1125) les informations d'initialisation au fournisseur d'informations (302) via le réseau d'informations par le biais du système de traitement numérique (304) ;

    recevoir (1130) une demande d'authentification de dispositif du fournisseur de contenu (302) sur le réseau d'informations et, en réponse à celle-ci, transmettre (1135) une réponse d'authentification de dispositif du dispositif de commande (300) au fournisseur de contenu (302) sur le réseau d'informations, ladite réponse d'authentification de dispositif étant destinée à terminer un établissement de liaison d'authentification entre le fournisseur de contenu (302) et le dispositif de commande (300) ;

    lorsque l'établissement de liaison d'authentification est terminé, recevoir (1140) une demande de clé du fournisseur de contenu (302) sur le réseau d'informations et, en réponse à celle-ci, transmettre (1145) une première clé représentative dudit utilisateur à partir du dispositif de commande (300) au fournisseur de contenu (302) sur le réseau d'informations, ladite première clé permettant audit serveur de contenu (302) de confirmer l'identité dudit utilisateur et ladite première clé étant en outre hachée avant transmission au fournisseur de contenu (302) sur le réseau d'informations ;

    établir une communication entre le dispositif de commande (300) et un fournisseur d'informations (302) à réception d'un accusé de réception de l'identité utilisateur ;

    obtenir (1150) ledit contenu du fournisseur d'informations (302),

    crypter (1155) ledit contenu en utilisant une seconde clé attribuée audit utilisateur parmi les multiples utilisateurs autorisés ; et

    stocker ledit contenu crypté dans une seconde unité de mémoire du dispositif de commande (300), dans laquelle la seconde unité de mémoire est une mémoire non volatile.


     
    2. Procédé selon la revendication 1, dans lequel le couplage du dispositif de contrôle (300) au système de traitement numérique (304) consiste en outre à coupler un connecteur à protocole bus série universel ("USB") du dispositif à un réceptacle USB du système de traitement numérique (304) pour faciliter la communication.
     
    3. Procédé selon la revendication 2, dans lequel le procédé consiste en outre à connecter le système de traitement numérique (304) à au moins un de l'Internet, d'un Intranet, d'un réseau étendu ("WAN") et d'un réseau local ("LAN").
     
    4. Procédé selon la revendication 3, dans lequel l'obtention de l'identification utilisateur en exécutant le processus d'authentification de l'utilisateur consiste en outre à :

    activer un détecteur d'empreinte digitale pour détecter l'empreinte digitale de l'utilisateur ;

    obtenir l'empreinte digitale de l'utilisateur à partir du détecteur d'empreinte digitale ;

    récupérer un fichier d'empreintes digitales dans la première unité de mémoire du dispositif de contrôle (300) ; et

    authentifier l'empreinte digitale de l'utilisateur en réponse au fichier d'empreintes digitales.


     
    5. Procédé selon la revendication 3, dans lequel l'obtention de l'identification de l'utilisateur en exécutant le processus d'authentification de l'utilisateur consiste en outre à :

    activer un détecteur d'iris pour détecter l'iris de l'utilisateur ;

    obtenir un balayage de l'iris de l'utilisateur à partir du détecteur d'iris ;

    récupérer un fichier d'iris dans la première unité de mémoire du dispositif de contrôle (300) ; et

    authentifier l'iris de l'utilisateur en réponse au fichier d'iris.


     
    6. Procédé selon la revendication 1, dans lequel la fourniture des informations d'initialisation au fournisseur d'informations consiste en outre à :

    récupérer un code de sécurité associé au fournisseur d'informations (302) ;

    envoyer le code de sécurité au fournisseur d'informations (302) ;

    récupérer une clé publique associée au fournisseur d'informations (302) ; et

    hacher la clé publique avant d'envoyer la clé publique au fournisseur d'informations (302).


     
    7. Procédé selon la revendication 3, dans lequel l'obtention dudit contenu à partir du fournisseur d'informations (302) consiste en outre à :

    envoyer une demande de transaction en ligne au fournisseur d'informations ; et

    recevoir les informations en réponse à la demande de transaction en ligne.


     
    8. Procédé selon la revendication 3, dans lequel l'obtention dudit contenu à partir du fournisseur d'informations (302) consiste en outre à :

    envoyer une demande pour accéder à un site Internet à accès limité au fournisseur d'informations (302) ; et

    recevoir ledit contenu en réponse à la demande une fois que la demande est vérifiée.


     
    9. Procédé selon la revendication 3, dans lequel l'obtention dudit contenu à partir dudit fournisseur d'informations consiste en outre à :

    envoyer une demande de service ou de mise à niveau au fournisseur d'informations ; et

    recevoir ledit contenu en réponse à la demande une fois que la demande est vérifiée.


     
    10. Procédé selon la revendication 1, consistant en outre à exécuter un logiciel de navigation pour afficher ledit contenu stocké dans la seconde unité de mémoire du dispositif de commande.
     
    11. Procédé selon la revendication 10, dans lequel l'étape d'exécution du logiciel de navigation consiste à :

    récupérer ledit contenu de la seconde unité de mémoire du dispositif (300), et

    décrypter ledit contenu.


     
    12. Procédé selon la revendication 1, consistant en outre à :

    charger un code d'inviolabilité dans une séquence d'exécution lorsqu'un d'un dispositif de détection de tension, de fréquence et de température détecte une violation ; et

    exécuter le code d'inviolabilité.


     
    13. Procédé selon la revendication 12, consistant en outre à effacer les données stockées dans la mémoire interne et la mémoire flash lorsqu'une violation est détectée.
     
    14. Dispositif de stockage antipiratage (300) destiné à assurer une dissémination contrôlée des informations à partir d'un fournisseur d'informations (302) vers un système de traitement numérique (304), le fournisseur d'informations (302) étant un fournisseur de contenu, qui fournit un contenu qui comprend un quelconque contenu sélectionné dans un groupe comprenant : des données médicales ; de la matière pédagogique ; des livres ; des articles ; de la musique ; des jeux et des films, le dispositif (300) étant utilisable pour :

    se coupler (1100) au système de traitement numérique (304) ;

    exécuter (1115, 1120) un processus d'authentification d'utilisateur pour obtenir l'identification utilisateur, "utilisateur étant un parmi des multiples utilisateurs autorisés,

    récupérer les informations d'initialisation à partir d'une première unité de mémoire du dispositif de commande (300) lorsque l'identité de l'utilisateur est authentifiée ;

    fournir (1125) les informations d'initialisation au fournisseur d'informations (302) via le réseau d'informations et par le biais du système de traitement numérique (304) ;

    recevoir (1130) une demande d'authentification de dispositif du fournisseur de contenu (302) sur le réseau d'informations et, en réponse à celle-ci, transmettre (1135) une réponse d'authentification de dispositif du dispositif de commande (300) au fournisseur de contenu sur le réseau d'informations, ladite réponse d'authentification de dispositif étant destinée à terminer un établissement de liaison d'authentification entre le fournisseur de contenu et le dispositif de commande ;

    lorsque l'établissement de liaison d'authentification est terminé, recevoir (1140) une demande de clé du fournisseur de contenu (302) sur le réseau d'informations et, en réponse à celle-ci, transmettre (1145) une première clé représentative dudit utilisateur du dispositif de commande (300) au fournisseur de contenu (302) sur le réseau d'informations, ladite première clé étant destinée à permettre audit serveur de contenu (302) de confirmer ladite identité de l'utilisateur et ladite première clé étant en outre hachée avant transmission au fournisseur de contenu sur le réseau d'informations ;

    établir une communication entre le dispositif de commande et un fournisseur d'informations à réception d'un accusé de réception de l'identité utilisateur ;

    obtenir (1150) ledit contenu du fournisseur d'informations (302),

    crypter (1155) ledit contenu en utilisant une seconde clé attribuée audit utilisateur parmi les multiples utilisateurs autorisés ; et

    stocker ledit contenu crypté dans une seconde unité de mémoire du dispositif de commande (300), dans laquelle la seconde unité de mémoire est une mémoire non volatile.


     
    15. Dispositif de stockage antipiratage selon la revendication 14, dans lequel le dispositif de contrôle (300) comprend un connecteur à protocole bus série universel ("USB") pour coupler le dispositif à un réceptacle USB du système de traitement numérique (304) pour faciliter la communication.
     
    16. Dispositif de stockage antipiratage selon la revendication 14, dans lequel le dispositif (300) est utilisable pour exécuter le processus d'authentification de l'utilisateur en :

    activant un détecteur d'empreinte digitale pour détecter l'empreinte digitale de l'utilisateur ;

    obtenant l'empreinte digitale de l'utilisateur à partir du détecteur d'empreinte digitale ;

    récupérant un fichier d'empreintes digitales dans la première unité de mémoire du dispositif de contrôle (300) ; et

    authentifiant l'empreinte digitale de l'utilisateur en réponse au fichier d'empreintes digitales.


     
    17. Dispositif de stockage antipiratage selon la revendication 14, dans lequel le dispositif (300) est utilisable pour exécuter le processus d'authentification de l'utilisateur en :

    activant un détecteur d'iris pour détecter l'iris de l'utilisateur ;

    obtenant un balayage de l'iris de l'utilisateur à partir du détecteur d'iris ;

    récupérant un fichier d'iris dans la première unité de mémoire du dispositif de contrôle (300) ; et

    authentifiant l'iris de l'utilisateur en réponse au fichier d'iris.


     
    18. Dispositif de stockage antipiratage selon la revendication 15, dans lequel, pour fournir les informations d'initialisation au fournisseur d'informations à distance, le dispositif (300) est en outre utilisable pour :

    récupérer un code de sécurité associé au fournisseur d'informations (302) ;

    envoyer le code de sécurité au fournisseur d'informations (302) ;

    récupérer une clé publique associée au fournisseur d'informations (302) ; et

    hacher la clé publique avant d'envoyer la clé publique au fournisseur d'informations (302).


     
    19. Dispositif de stockage antipiratage selon la revendication 14, dans lequel, pour obtenir ledit contenu à partir du fournisseur d'informations (302), le dispositif (300) est en outre utilisable pour :

    envoyer une demande de transaction en ligne au fournisseur d'informations ; et

    recevoir ledit contenu en réponse à la demande de transaction en ligne.


     
    20. Dispositif de stockage antipiratage selon la revendication 14, dans lequel, pour obtenir ledit contenu à partir du fournisseur d'informations (302), le dispositif (300) est en outre utilisable pour :

    envoyer une demande pour accéder à un site Internet à accès limité au fournisseur d'informations ; et

    recevoir ledit contenu en réponse à la demande une fois que la demande est vérifiée.


     
    21. Dispositif de stockage antipiratage selon la revendication 14, dans lequel, pour obtenir ledit contenu à partir du fournisseur d'informations (302), le dispositif (300) est en outre utilisable pour :

    envoyer une demande de service ou de mise à niveau au fournisseur d'informations (302) ; et

    recevoir ledit contenu en réponse à la demande une fois que la demande est vérifiée.


     
    22. Dispositif de stockage antipiratage selon la revendication 14, le dispositif (300) étant en outre utilisable pour exécuter un logiciel de navigation pour afficher ledit contenu stocké dans la seconde unité de mémoire du dispositif de commande.
     
    23. Dispositif de stockage antipiratage selon la revendication 22, le dispositif (300) étant en outre utilisable, pendant l'exécution du logiciel de navigation, pour :

    récupérer ledit contenu de la seconde unité de mémoire du dispositif (300), et

    décrypter ledit contenu.


     
    24. Dispositif de stockage antipiratage selon la revendication 14, le dispositif (300) étant en outre utilisable pour :

    charger un code d'inviolabilité dans une séquence d'exécution lorsqu'un d'un dispositif de détection de tension, de fréquence et de température détecte une violation ; et

    exécuter le code d'inviolabilité.


     
    25. Dispositif de stockage antipiratage selon la revendication 24, le dispositif étant en outre utilisable pour effacer les données stockées dans la mémoire interne et la mémoire flash lorsqu'une violation est détectée.
     




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    REFERENCES CITED IN THE DESCRIPTION



    This list of references cited by the applicant is for the reader's convenience only. It does not form part of the European patent document. Even though great care has been taken in compiling the references, errors or omissions cannot be excluded and the EPO disclaims all liability in this regard.

    Patent documents cited in the description