WO2012091615A1 - Firmware system for producing protected digital information - Google Patents

Abstract

The invention relates to the processing of digital data with the aid of electrical devices. The firmware system for producing protected digital information comprises an analog signal receiver which transmits analog information to an analog signal sensor, an analog-to-digital converter, at least one main electronic circuit which is connected to said analog-to-digital converter by means of an electronic bus, receives digitized information from said analog-to-digital converter, produces a set of standard-format bytes and transmits this set of standard-format bytes to a data transmission port or an information carrier, an additional electronic circuit, which produces a set of encoded-format bytes from the set of standard-format bytes, a data transmission port or an information carrier, a reader which receives data of both of said sets of bytes, a decoder for the set of encoded-format bytes, and a unit for comparing the sets of standard-format and decoded-format bytes.

Description

 Hardware-software complex for the production of secure digital information

The utility model relates to the processing of digital data using electrical devices, namely, to the software and hardware complex for verifying the authenticity of digital information, and can be used in any digital technology, for example, such areas as photo, video, audio - and office equipment.

BACKGROUND OF THE INVENTION The closest in technical essence to the proposed useful model is a software and hardware complex for the production of secure digital information, selected as a prototype, containing an analog signal receiving device that transmits analog information to an analog signal sensor associated with by the last electrical conductors, an analog-to-digital converter, an electronic bus connected to it and receiving digitized information from it, at least one electronic ktronnuyu circuit providing aggregate creating Bai comrade standard format and transmitting it to the data port or the information carrier

(see http://www.canon.ru/news/products/news.asp?news_id=870, Canon press release, publ. 01.03.03.2007). The disadvantage of the prototype is the inadequate reliability of digital data protection due to the possibility of cracking encoded files and key interception, as well as the inability to protect against changes in the digital information produced and to ensure its authenticity.

 The technical result achieved by the utility model is to provide reliable protection of digital information from possible changes and to prevent hacking of encoded data with verification of the authenticity of the digital information produced, regardless of the producer and recipient of the information.

The technical result achieved is achieved in that the hardware-software complex for the production of secure digital information, comprising an analog signal receiving device, transmitting analog information to an analog signal sensor, an analog-to-digital converter connected to the last electrical conductors, an electronic bus connected to it, and the digitized information received from it, at least one electronic circuit, providing the creation of a set of bytes of a standard format and transmission It is transmitted to the data port or storage medium, equipped with an additional electronic circuit, either placed separately from the main electronic circuit or integrated into the latter, and ensuring the creation of a set of bytes of an encrypted format from a set of bytes of a standard format before transmitting both sets of bytes to a data port or storage medium, a reader that receives data from both of the above bytes, a decryptor bytes of encrypted format and a unit for comparing bytes of standard and decrypted formats.

Brief Description of the Drawings

 The drawing (see Fig. 1) shows a block diagram of a hardware-software complex for the production of secure digital information.

 The best embodiment of the invention

The proposed hardware-software complex for the production of secure digital information contains a receiver 1 of analog signals (for example, a camera lens, a microphone membrane) that transmits analog information to a sensor 2 of analog signals (for example, a photo matrix, inductance coil ), an analog-to-digital converter 3 connected to the last electrical conductors, an electronic bus connected to it and receiving digitized information from it (a set of digital data) of at least one main an explicit electronic circuit 4 (made, for example, in the form of a chip), ensuring the creation of a set of bytes 5 (i.e. a file) of a standard format (for example, jpg, tr3) and transmitting it to data transfer port 6 (USB, Serial) or information carrier 7 (for example, a memory card, hard disk), additional electronic circuit 8 (made, for example, also in the form of a chip), or placed separately from the main electronic circuit 4, or integrated into the latter, and providing creating a set of bytes 9 of an encrypted format (for example, using a Synchro cipher) from the set of bytes 5 standartno- of format to transmit both sets of bytes 5 and 9 at the port 6 data transfer or information carrier 7, reading device 10, providing data reception of both of the above sets of bytes 5 and 9, a decoder 1 1 of a set of bytes 9 of an encrypted format and a unit 12 of comparison of sets of bytes of a standard 5 and decrypted 13 formats . The reader 10, the decoder 1 1, and the unit 12 for comparing the byte collections of the standard 5 and the already decrypted 13 formats form a means 14 of authenticating digital information.

 The hardware-software complex for the production of secure digital information works as follows.

An analog signal (sound, light) enters the receiving device 1 of the analog signals (membrane, lens) and is detected by a sensor of 2 analog signals (piezocrystal, photo-matrix). In the sensor 2, the aforementioned analog signal is converted into an electrical analog signal and fed to an analog-to-digital converter 3, which converts the analog signal into a set of digital data. The set of digital data is received by the main electronic circuit 4, which produces a set of bytes 5 (file) of a standard format (mp3, jpg). The set of bytes 5 of the standard format is adopted by an additional electronic circuit 8, which produces a set of bytes 9 (file) of an encrypted format (i.e., in a secure, encoded format) using a secret encryption algorithm (for example, using an asynchronous cipher). The sets of bytes of standard 5 and encrypted 9 formats are sent to data transfer port 6 (USB, Serial) or to information storage medium 7 (memory card, disk). Verification of the authenticity of the aforementioned sets received at port 6 or medium 7 is carried out by receiving them by a reader 10, which transmits a set of bytes 9 of an encrypted format to a decoder 1 1 and then comparing them in a comparison unit 12. The decryptor And, using the inverse algorithm that was used in the additional electronic circuit 8 to create a set of bytes in a secure format (for example, using asynchronous decryption), decrypts the set of bytes transferred to it. The comparison unit 12 receives the decrypted set of bytes 13 of the decrypted format, as well as the set of bytes 5 of the standard format, and compares them. The guarantee of the authenticity of the standard format file is the result of identifying the identity of the decrypted set of bytes 13 with the set of bytes 5 of the standard format. Any change in the set of bytes 5 of the standard format will be revealed by comparing it with the decrypted set of bytes 13 in the comparison unit 12. Any change in the set of bytes 9 of the encrypted format will lead to the inability to decrypt it, thereby guaranteeing the authenticity of the set of bytes 5 of the standard format.

Industrial applicability

The proposed hardware-software complex for the production of secure digital information, providing verification of its authenticity, can be used in any digital technology, namely, in photo, video, audio and office equipment (for example, during scanning).

Claims

 Utility Model Formula

A hardware-software complex for the production of secure digital information, containing an analog signal receiving device that transmits analog information to an analog signal sensor, connected to the last electrical conductors, an analog-to-digital converter, an electronic bus connected to it and received digitized information from it, at least one electronic circuit providing a collection of bytes of a standard format and transmitting it to a data port or storage medium about characterized in that the complex is equipped with an additional electronic circuit, either located separately from the main electronic circuit, or integrated into the latter, and providing the creation of a set of bytes of an encrypted format from a set of bytes of a standard format before transmitting both sets of bytes to a data port or an information carrier, a reader, capable of receiving data from both of the aforementioned sets of bytes, a decoder of a set of bytes of an encrypted format, and equal neniya aggregates bytes decrypted and standard formats comrade.