Publications

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Miscellaneous
Hassanien, A. - E., J. H. Abawajy, A. Abraham, and H. Hagras, Pervasive computing: innovations in intelligent multimedia and applications, : Springer Science & Business Media, 2009. Abstract
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Hassanien, A. E., K. Shaalan, T. Gaber, A. T. Azar, and F. Tolba, Proceedings of the International Conference on Advanced Intelligent Systems and Informatics 2016, : Springer, 2016. Abstract
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Abraham, A., K. Wegrzyn-Wolska, A. E. Hassanien, Václav Snášel, and A. M. Alimi, Proceedings of the Second International Afro-European Conference for Industrial Advancement AECIA 2015, : Springer, 2016. Abstract
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Youssef, A., A. Nitaj, and A. E. Hassanien, Progress in Cryptology-AFRICACRYPT 2013, : Springer Berlin Heidelberg, 2013. Abstract
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Li, T., H. S. Nguyen, G. Wang, J. W. Grzymala-Busse, R. Janicki, A. - E. Hassanien, and H. Yu, Rough Sets and Knowledge Technology: 7th International Conference, RSKT 2012, Chengdu, China, August 17-20, 2012, Proceedings, : Springer, 2012. Abstract
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Li, T., H. S. Nguyen, G. Wang, J. W. Grzymala-Busse, R. Janicki, A. - E. Hassanien, and H. Yu, Rough Sets and Knowledge Technology: 7th International Conference, RSKT 2012, Chengdu, China, August 17-20, 2012, Proceedings, : Springer, 2012. Abstract
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Chakraborty, M., A. - E. Hassanien, D. Slezak, and W. Zhu, Rough Sets, Fuzzy Sets, Data Mining and Granular Computing, : Springer-Verlag Berlin Heidelberg, 2009. Abstract
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Chakraborty, M., A. - E. Hassanien, D. Slezak, and W. Zhu, Rough Sets, Fuzzy Sets, Data Mining and Granular Computing, : Springer-Verlag Berlin Heidelberg, 2009. Abstract
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Corchado, E. S., V. Snasel, J. Sedano, A. E. Hassanien, J. L. Calvo, and D. Slezak, Soft Computing Models in Industrial and Environmental Applications, 6th International Conference SOCO 2011, : Springer Science & Business Media, 2011. Abstract
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Corchado, E. S., V. Snasel, J. Sedano, A. E. Hassanien, J. L. Calvo, and D. Slezak, Soft Computing Models in Industrial and Environmental Applications, 6th International Conference SOCO 2011, : Springer Science & Business Media, 2011. Abstract
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Hassanien, A. E., and Eid Emary, Swarm intelligence: principles, advances, and applications, : CRC Press, 2016. Abstract
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Journal Article
Ismael, G., and A. E. Hassanien, " Moth-flame swarm optimization with Neutrosophic sets for automatic mitosis detection in breast cancer histology images, ", Applied Intelligence, 2017, 2017. AbstractWebsite

This paper presents an automatic mitosis detection approach of histopathology slide imaging based on using neutrosophic sets (NS) and moth-flame optimization (MFO). The proposed approach consists of two main phases, namely candidate’s extraction and candidate’s classification phase. At candidate’s extraction phase, Gaussian filter was applied to the histopathological slide image and the enhanced image was mapped into the NS domain. Then, morphological operations have been implemented to the truth subset image for more enhancements and focus on mitosis cells. At candidate’s classification phase, several features based on statistical, shape, texture and energy features were extracted from each candidate. Then, a principle of the meta-heuristic MFO algorithm was adopted to select the best discriminating features of mitosis cells. Finally, the selected features were used to feed the classification and regression tree (CART). A benchmark dataset consists of 50 histopathological images was adopted to evaluate the performance of the proposed approach. The adopted dataset consists of five distinct breast pathology slides. These slides were stained with H&E acquired by Aperio XT scanners with 40-x magnification. The total number of mitoses in 50 database images is 300, which were annotated by an expert pathologist. Experimental results reveal the capability of the MFO feature selection algorithm for finding the optimal feature subset which maximizing the classification performance compared to well-known and other meta-heuristic feature selection algorithms. Also, the high obtained value of accuracy, recall, precision and f-score for the adopted dataset prove the robustness of the proposed mitosis detection and classification approach. It achieved overall 65.42 % f-score, 66.03 % recall, 65.73 % precision and accuracy 92.99 %. The experimental results show that the proposed approach is fast, robust, efficient and coherent. Moreover, it could be used for further early diagnostic suspicion of breast cancer.

Alaa Tharwat, Y. Abdelmonem, and A. E. Hassanien, " A Predictive Model for Toxicity Effects Assessment of Biotransformed Hepatic Drugs Using Iterative Sampling Method, ", Nature Scientific Report,, vol. 6, Article number: 38660 , 2016. AbstractWebsite

Measuring toxicity is one of the main steps in drug development. Hence, there is a high demand for computational models to predict the toxicity effects of the potential drugs. In this study, we used a dataset, which consists of four toxicity effects:mutagenic, tumorigenic, irritant and reproductive effects. The proposed model consists of three phases. In the first phase, rough set-based methods are used to select the most discriminative features for reducing the classification time and improving the classification performance. Due to the imbalanced class distribution, in the second phase, different sampling methods such as Random Under-Sampling, Random Over-Sampling and Synthetic Minority Oversampling Technique are used to solve the problem of imbalanced datasets. ITerative Sampling (ITS) method is proposed to avoid the limitations of those methods. ITS method has two steps. The first step (sampling step) iteratively modifies the prior distribution of the minority and majority classes. In the second step, a data cleaning method is used to remove the overlapping that is produced from the first step. In the third phase, Bagging classifier is used to classify an unknown drug into toxic or non-toxic. The experimental results proved that the proposed model performed well in classifying the unknown samples according to all toxic effects in the imbalanced datasets.

E. Emary, H. M. Zawbaa, A. E. Hassanien, and B. PARV, " Multi-objective retinal vessel localization using flower pollination search algorithm with pattern search, , ", Advances in Data Analysis and Classification, , issue (27 May 2016 on line), , pp. pp 1-17, 2017. AbstractWebsite

This paper presents a multi-objective retinal blood vessels localization approach based on flower pollination search algorithm (FPSA) and pattern search (PS) algorithm. FPSA is a new evolutionary algorithm based on the flower pollination process of flowering plants. The proposed multi-objective fitness function uses the flower pollination search algorithm (FPSA) that searches for the optimal clustering of the given retinal image into compact clusters under some constraints. Pattern search (PS) as local search method is then applied to further enhance the segmentation results using another objective function based on shape features. The proposed approach for retinal blood vessels localization is applied on public database namely DRIVE data set. Results demonstrate that the performance of the proposed approach is comparable with state of the art techniques in terms of accuracy, sensitivity, and specificity with many extendable features.

Eslam Hassan, A. Hafez, A. E. H. and, and A. Fahmy, " Nature inspired algorithms for solving the community detection problem, ", Logic Journal of the IGPL: Oxford Journals, 2017.
Amira Sayed A. Aziza, S. E. - O. Hanafi, and A. E. Hassanien, " , Comparison of classification techniques applied for network intrusion detection and classification, ", Journal of Applied Logic Available online 14 November 2017, 2017. AbstractWebsite
Mukherjee, A., N. Dey, N. Kausar, A. S. Ashour, R. Taiar, and A. E. Hassanien, " A Disaster Management Specific Mobility Model for Flying Ad-hoc Network", International Journal of Rough Sets and Data Analysis (IJRSDA), vol. 3, issue 3, 2016. AbstractWebsite

The extended Mobile Ad-hoc Network architecture is a paramount research domain due to a wide enhancement of smart phone and open source Unmanned Aerial Vehicle (UAV) technology. The novelty of the current work is to design a disaster aware mobility modeling for a Flying Ad-hoc network infrastructure, where the UAV group is considered as nodes of such ecosystem. This can perform a collaborative task of a message relay, where the mobility modeling under a “Post Disaster” is the main subject of interest, which is proposed with a multi-UAV prototype test bed. The impact of various parameters like UAV node attitude, geometric dilution precision of satellite, Global Positioning System visibility, and real life atmospheric upon the mobility model is analyzed. The results are mapped with the realistic disaster situation. A cluster based mobility model using the map oriented navigation of nodes is emulated with the prototype test bed.

Babers, R., and A. E. Hassanien, " A Nature-Inspired Metaheuristic Cuckoo Search Algorithm for Community Detection in Social Networks", ", International Journal of Service Science, Management, Engineering, and Technology, IJSSMET , vol. 8, issue 1, pp. 50-, 2017. AbstractWebsite

In last few years many approaches have been proposed to detect communities in social networks using diverse ways. Community detection is one of the important researches in social networks and graph analysis. This paper presents a cuckoo search optimization algorithm with Lévy flight for community detection in social networks. Experimental on well-known benchmark data sets demonstrates that the proposed algorithm can define the structure and detect communities of complex networks with high accuracy and quality. In addition, the proposed algorithm is compared with some swarms algorithms including discrete bat algorithm, artificial fish swarm, discrete Krill Herd, ant lion algorithm and lion optimization algorithm and the results show that the proposed algorithm is competitive with these algorithms.

Alaa Tharwat, and A. E. Hassanien, " Chaotic Antlion Algorithm for Parameter Optimization of Support Vector Machine", Applied Intelligence , vol. in press, 2017. AbstractWebsite

Support Vector Machine (SVM) is one of the well-known classifiers. SVM parameters such as kernel
parameters and penalty parameter (C) significantly influences the classification accuracy. In this
paper, a novel Chaotic Antlion Optimization (CALO) algorithm has been proposed to optimize the
parameters of SVM classifier, so that the classification error can be reduced. To evaluate the proposed
model (CALO-SVM), the experiment adopted six standard datasets which are obtained from UCI machine
learning data repository. For verification, the results of the CALO-SVM algorithm are compared
with grid search, which is a conventional method of searching parameter values, standard Ant Lion
Optimization (ALO) SVM, and two well-known optimization algorithms: Genetic algorithm (GA)
and Particle Swarm Optimization (PSO). The experimental results proved that the proposed model is
capable to find the optimal values of the SVM parameters and avoids the local optima problem. The
results also demonstrated lower classification error rates compared with GA and PSO algorithms