Dynamic determinant matrix-based block cipher algorithm
Rijndael (AES) is a well-known block cipher algorithm with proven robustness towards countless cryptographic attacks. Somehow, the substitution box (s-box) in the AES block cipher is fixed or static for all rounds and has become the target of many attacks. The design of the s-box is the most cruc...
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Main Author: | |
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Format: | Thesis |
Language: | English |
Published: |
2018
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Subjects: | |
Online Access: | http://psasir.upm.edu.my/id/eprint/76979/1/FSKTM%202018%2067%20-%20IR.pdf http://psasir.upm.edu.my/id/eprint/76979/ |
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Institution: | Universiti Putra Malaysia |
Language: | English |
Summary: | Rijndael (AES) is a well-known block cipher algorithm with proven robustness
towards countless cryptographic attacks. Somehow, the substitution box (s-box)
in the AES block cipher is fixed or static for all rounds and has become the target
of many attacks. The design of the s-box is the most crucial part while designing
a new block cipher algorithm since it is the only non-linear element of the cipher.
In this research, emphasis is given on increasing the complexity of a block cipher
algorithm. We propose a new dynamic determinant block cipher (DDBC) designed
based on the determinant matrix properties which shall meet the security
requirements of a secure block cipher. This research will first make use of the
matrix determinants properties, linear equations and its inverses, identifies the
similarity elements and combines them with irreducible polynomials and affine
transformation to produce new determinants-boxes to be used in the substitution
layer. This research also proposes a new method namely RotateSwapDeterminant
function that uses rotation and swapping of the bit based on the 4x4 determinant
computations and will act as the permutation layer in the DDBC algorithm. The
output from the DDBC algorithm will be tested and validated through NIST
Statistical Test Suite. The s-box test will be carried out to verify the security of the
new determinant s-boxes constructed. The correlation coefficient and key
sensitivity of plaintext and ciphertext produced by DDBC algorithm will be tested
through avalanche effect experiments. Analyses on linear, differential and short
attack will be performed against the DDBC algorithm to estimate the possible
success of all three attacks. The performance analysis is performed on DDBC
algorithm to test for the encryption and decryption speed of the block cipher and
lastly the complexity analysis is performed on the selected determinant s-boxes to
examine the level of complexity contributed by tested and untested determinant sboxes.
Through these extensive experiments, the proposed DDBC algorithm has
successfully passed the NIST Statistical Test with all 15 tests show p-value > 0.01.
The results from the s-box test indicate that the determinant s-boxes constructed
provides good balanced, sufficient differential uniformity, excellent non-linearity,
acceptable algebraic degree and adequate signal to noise ratio (SNR). For the
avalanche effect analysis, the DDBC algorithm shows that most of the correlation
values tested on the proposed determinant s-boxes and the
RotateSwapDeterminant function are near to 0 which indicate a strong positive (or
negative) non-linear relationship which means the DDBC algorithm has a high
confusion property. The analysis on linear, differential and short attack shows
required complexity to be more then 2102 attempts for linear cryptanalysis, required
complexity to be more then 2104 attempts for differential cryptanalysis and
(((28)10)256)5 total possibilities of attempts for short attack which provide sufficient
evidence that the DDBC algorithm is resistance towards all three attacks. The
performance analysis in terms of processing speed of the encryption and
decryption process of the DDBC algorithm shows minimal differences in both AES
and DDBC algorithm despite of the difference method of transformation used in
both algorithms. Lastly, the complexity analysis shows that the determinant s-box
that has go through the s-box analysis test show better avalanche criteria proving
higher level of complexity compared to non-tested determinant s-box. From the
result of the analysis, it has been justified that the proposed DDBC algorithm can
be considered as one of the secure symmetric block cipher and can be used as
an alternative to other cryptographic algorithm in computer security research area. |
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