| Doctoral thesis defended | |
| 01 | Study of some nonlinear boundary problems of fractional order (Laadjal Zaid). |
| 02 | Approximation of certain Classes of Evolution Problems by a pseudo-Spectral method (Chettouh Abdeldjali). |
| 03 | Dynamics of the Legyel-Epstein Reaction-Diffusion System and its Generalizations (Mansouri Djamel). |
| 04 | A New Energy-Efficient Approach to Resource Allocation in Coud Computing Systems. (Saidi Karima) |
| 05 | An approach to interoperability between interconnected objects in the context of the Internet of Things. (Benkhaled Sihem). |
| 06 | AI approach for the composition of services in the Internet of Things (Internet of Things IoT) by analyzing user needs. (Boucetti Rabeh). |
| 07 | Learning Methods Based Approach for Dynamic Load Balancing in CloudIoT. (Benabbes Sofiane) |
| 08 | A Deep learning approach for 3D reconstruction. (Mehdi Mellah) |
| 09 | Swarm intelligence-based approaches for interpretable sentiment analysis. (Bakhouche Maamar). |
| 10 | Communications security in an Internet of Things context. (Bettayeb Sami) |
| 11 | On the properties of the solutions of certain functional equations coming from dynamic programming. (Derouiche Djamila) |
| 12 | Variational analysis of some boundary problems in electroelasticity and electroviscoelasticity with damage. (Gossa Mohamed Elaid) |
| Doctoral thesis in progress-Computer science | ||
| 01 | Proposal of a coalition formation algorithm for multi-agent systems. | Sid Nabila |
| 02 | Design of a neural model for natural language translation | Messaoudi Diaa Eddine |
| 03 | Descriptive modeling of collaborative practices in a human learning computing environment | Ghaoui Sara |
| 04 | Learning a multi-criteria decision model for cost and performance optimization in the Cloud | Bezza Youcef |
| 05 | Skeletal joint-based approach for human action recognition | Bouguerra Adil |
| 06 | Reasoning based on cases for the pooling of semantic web knowledge: discovery of web services | Bouzennada Abderaouf |
| 07 | Securing the Internet of Things
| Benamor Zahia |
| 08 | An organizational multi-agent approach for the design of ambient intelligence systems | Safir Samir |
| 09 | Semantic interoperability in an IoT system | Chemini Naoual |
| 10 | Formal models for the design of multi-agent systems. | Sabeg Samra |
| 11 | A novel SMA-based approach for prediction, detection and fault tolerance in IoT systems | Sekkiou Amel |
| 12 | Knowledge Representation in IoT: Semantic Modeling and Reasoning | Amara Fatima Zohra |
| 13 | Swarm Intelligence Approaches for Performance Optimization of Internet of Things Applications in Fog Infrastructure | Maarouk Chouaib |
| 14 | Knowledge representation of interoperable cyber physical systems based on deep reinforcement learning | Hafidi Mohamed Elmadani |
| 15 | Semantic modeling of individual and global objectives for dynamic planning in multi-agents under high uncertainty | Guerroudj Bochra |
| 16 | A Machine Learning-based approach for managing cyber-physical systems | Azeri Nabila |
| 17 | Contribution to the specification and formal analysis of cyber-physical systems: Application to Industry 4.0 | Bouheroum Ayoub |
| 18 | Formal approach to the design of coordination mechanisms. | Foughali Youcef |
| 19 | Authentication protocols in the Internet of Things | Zerraza Imane |
| Doctoral thesis in progress-Mathematics | ||
| 01 | Inverse problems for some strongly coupled parabolic systems | Boussaada Mourad |
| 02 | On inverse problems for degenerate parabolic equations | Nouar Maroua |
| 03 | Carleman inequalities for singular parabolic equations and applications | Nedjma Mahdi |
| 04 | Controllability of Stochastic Partial Differential Equations | Hamdi Noudjoud |
| 05 | On fractional evolution problems with integral conditions | Ouled Khaled Oualid |
| 06 | Nonexistence of weak solutions to fractional differential evolution equations and systems | Khirani Mostafa |
| 07 | On optimizing EDP problems | Soudani Abdelkader |
| 08 | Methods of nonlinear analysis applied to certain functional differential equations of fractional order | Bouzriba Houssam |
| 09 | Solving Fractional Differential Equations by the fractional analysis method Time-discretization method… | Bekakra Youcef |
| 10 | Carleman inequalities for singular parabolic equations and applications | Nedjma Mahdi |
| 11 | On inverse problems for degenerate parabolic equations | Nouar Marwa |
| 12 | Study of a class of nonlinear boundary problems of fractional order | Khaldi Soumia |
