Method for encrypting communication by adopting dynamic vector matrix
A dynamic vector, encrypted communication technology, applied in the field of encryption, can solve problems such as inability to know each other, achieve the effect of strengthening confidentiality, solving information security problems, and eliminating security threats
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[0031] like figure 1 As shown, the communication starts, the sender first translates the password into ciphertext with the first set of keys by XOR operation, the sender sends the ciphertext S1 encrypted with the first set of keys, and the receiver accepts the message , translate it into plaintext S2 with the first set of keys, encrypt the plaintext password into ciphertext with the second set of keys, and send it to the sender S3, the sender receives the ciphertext and translates it into plaintext S4 with the second set of keys, and judges whether Consistent with issuing the password S6, if yes, confirm that it is correct, start the communication S7, otherwise terminate the communication, and check the problem S5.
[0032] Take the 16-bit password as an example:
[0033] Set the first set of keys to
[0034] 110100101100011111010010110001111101001011000111,
[0035] The second set of key is 0110011100011010011001100110001101001100110000011010, the password is 1222423631254...
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