RU2022109495A - Method for decoding digital information in the form of a multidimensional nanobar code - Google Patents

Claims (1)

A method for decoding digital information in the form of a multidimensional nanobar code, visually representing a color two-dimensional matrix, including reading encoded data from the code, selecting useful information, decompressing, decrypting and decoding this information using a code conversion table, in which the lost information is restored using algorithms information recovery based on redundant information recorded during code formation, information decompression is carried out based on optimal code methods based on the sum of the obtained probabilities at the compression stage with the calculation of the probabilities of the original code words, information decryption is carried out using the inverse cryptographic transformation function in two stages, in the first stage, decryption is carried out at the bit level based on the symmetric bit encryption algorithm AES, at the second stage, decryption is carried out at the byte level using a polyalphabetic byte cipher with a different shift value for each byte of information, at the first stage of decryption (bit encryption) the number of rounds of shuffling is finite and is equal to q, while the message P of length a symbols is divided into n-e number of blocks with m symbols per block and decryption is carried out with an algorithm containing q rounds of mixing, and at the second stage of decryption a table of values 256 by 256 symbols or 256 tables of 256 positions is used, in this case, the number of table fields corresponds to the number of fields of the ASCII encoding table, the number of mixing rounds during decryption at the byte level is equal to 1, the resulting sequence of the encrypted message is converted into a hexadecimal number system and transferred to the second stage of bit decryption, characterized in that the decoding of a multidimensional nanobar is The code is carried out by dividing a color two-dimensional matrix into encoded information layers using color templates taking into account the selected color conversion system, and each layer is decoded separately into its own information block, ensuring the safety of independent or dependent information with its subsequent conversion into a single block.