Muawia A. Elsadig scite author profile

Muawia A. Elsadig

5Publications

40Citation Statements Received

80Citation Statements Given

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179

Affiliations

Imam Abdulrahman Bin Faisal University, Sudan University of Science and Technology

Publications

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Breast cancer detection using machine learning approaches: a comparative study

Elsadig

Altigani²,

Elshoush³

2023

IJECE

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<p><span>As the cause of the breast cancer disease has not yet clearly identified and a method to prevent its occurrence has not yet been developed, its early detection has a significant role in enhancing survival rate. In fact, artificial intelligent approaches have been playing an important role to enhance the diagnosis process of breast cancer. This work has selected eight classification models that are mostly used to predict breast cancer to be under investigation. These classifiers include single and ensemble classifiers. A trusted dataset has been enhanced by applying five different feature selection methods to pick up only weighted features and to neglect others. Accordingly, a dataset of only 17 features has been developed. Based on our experimental work, three classifiers, multi-layer perceptron (MLP), support vector machine (SVM) and stack are competing with each other by attaining high classification accuracy compared to others. However, SVM is ranked on the top by obtaining an accuracy of 97.7% with classification errors of 0.029 false negative (FN) and 0.019 false positive (FP). Therefore, it is noteworthy to mention that SVM is the best classifier and it outperforms even the stack classier.</span></p>

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A Polymorphic Advanced Encryption Standard – A Novel Approach

et al. 2021

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To secure various forms of data, a polymorphic variant of the Advanced Encryption Standard (P-AES) has been introduced. In the P-AES, the AES parameters' values will change with every new key. The exact values will be available only to legitimate communicating parties during execution time.To achieve these objectives, the basic AES transformations, SubBytes, ShiftRows, and MixColumns, have been made key-dependent in the proposed P-AES. Hence, with every new key, these transformations will operate differently. The receiver can retrieve the operations' details from the encryption key. Consequently, polymorphism has been achieved and interoperability remains intact. P-AES has been implemented seamlessly using the existing AES modules, and the performance was more or less equal to the AES performance (71 and 70 milliseconds to encrypt 500 bytes using the P-AES and the AES respectively). From a security standpoint, the proposed P-AES fully complies with Kerckhoff's principle. This means the cipher has an open design, and the security provided by the P-AES depends only on the secrecy of the encryption key. The cipher resistance to differential and linear attacks has been proved. Moreover, the resulting proposed cipher can operate in 128 different ways, which will significantly reduce the capabilities of any sophisticated attacker. Furthermore, the proposed P-AES's scores of the key avalanche and the plaintext avalanche were 0.496 and 0.504 respectively. Finally, the Statistical Test Suite (STS) recommended by the NIST has been used to ensure the randomness of the cipher output, and the cipher has passed all the STS tests.

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Network Protocol Covert Channels: Countermeasures Techniques

Elsadig

Fadlalla²

2017

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Packet Length Covert Channel: A Detection Scheme

Elsadig

Fadlalla²

2018

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Performance Analysis of Popular MANET Protocols

Elsadig

Fadlalla²,

Altigani³

2017

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Muawia A. Elsadig

Breast cancer detection using machine learning approaches: a comparative study

A Polymorphic Advanced Encryption Standard – A Novel Approach

Network Protocol Covert Channels: Countermeasures Techniques

Packet Length Covert Channel: A Detection Scheme

Performance Analysis of Popular MANET Protocols

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