Gaithuru, Juliet Nyokabi (2019) Enhancement of Nth degree truncated polynomial ring for improving decryption failure. PhD thesis, Universiti Teknologi Malaysia.
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Abstract
Nth Degree Truncated Polynomial (NTRU) is a public key cryptosystem constructed in a polynomial ring with integer coefficients that is based on three main key integer parameters N; p and q. However, decryption failure of validly created ciphertexts may occur, at which point the encrypted message is discarded and the sender re-encrypts the messages using different parameters. This may leak information about the private key of the recipient thereby making it vulnerable to attacks. Due to this, the study focused on reduction or elimination of decryption failure through several solutions. The study began with an experimental evaluation of NTRU parameters and existing selection criteria by uniform quartile random sampling without replacement in order to identify the most influential parameter(s) for decryption failure, and thus developed a predictive parameter selection model with the aid of machine learning. Subsequently, an improved NTRU modular inverse algorithm was developed following an exploratory evaluation of alternative modular inverse algorithms in terms of probability of invertibility, speed of inversion and computational complexity. Finally, several alternative algebraic ring structures were evaluated in terms of simplification of multiplication, modular inversion, one-way function properties and security analysis for NTRU variant formulation. The study showed that the private key f and large prime q were the most influential parameters in decryption failure. Firstly, an extended parameter selection criteria specifying that the private polynomial f should be selected such that f(1) = 1, number of 1 coefficients should be one more or one less than -1 coefficients, which doubles the range of invertible polynomials thereby doubling the presented key space. Furthermore, selecting q 2:5754 f(1)+83:9038 gave an appropriate size q with the least size required for successful message decryption, resulting in a 33.05% reduction of the public key size. Secondly, an improved modular inverse algorithm was developed using the least squares method of finding a generalized inverse applying homomorphism of ring R and an (N x N) circulant matrix with integer coefficients. This ensured inversion for selected polynomial f except for binary polynomial having all 1 coefficients. This resulted in an increase of 48% to 51% whereby the number of invertible polynomials enlarged the key space and consequently improved security. Finally, an NTRU variant based on the ring of integers, Integer TRUncated ring (ITRU) was developed to address the invertiblity problem of key generation which causes decryption failure. Based on this analysis, inversion is guaranteed, and less pre-computation is required. Besides, a lower key generation computational complexity of O(N2) compared to O(N2(log2p+log2q)) for NTRU as well as a public key size that is 38% to 53% smaller, and a message expansion factor that is 2 to15 times larger than that of NTRU enhanced message security were obtained.
Item Type: | Thesis (PhD) |
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Subjects: | Q Science > QA Mathematics > QA75 Electronic computers. Computer science |
Divisions: | Computing |
ID Code: | 96161 |
Deposited By: | Narimah Nawil |
Deposited On: | 04 Jul 2022 07:38 |
Last Modified: | 04 Jul 2022 07:38 |
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