Noura Aljeri
Assistant Professor of Computer Science
249-82724
Kuwait University
College of Science
Computer Science Department,
P.O. Box 5969
Safat -13060
Education:
Ph.D. in Computer Science
University of Ottawa, Canada2020
M.S. in Computer Science
Kuwait University, Kuwait2013
B.S. in Computer Science
Kuwait University, Kuwait2006
Interests and Research:
  • Wireless and Mobile Communications
  • Machine Learning Models
  • Intelligent Transportation Systems (ITS)
  • Autonomous Vehicular Networks


Publications:

[1] Hongfan Mu, Noura Aljeri, Azzedine Boukerche: Traffic Flow based Feature Engineering for Urban Management System. NOMS 2023: 1-6 (2023)

[2] Noura Aljeri, Azzedine Boukerche: A novel proactive controller deployment protocol for 5G-enabled software-defined Vehicular Networks. Comput. Commun. 182: 88-97 (2022)

[3] Noura Aljeri, Azzedine Boukerche: Mobility management in space-ground-integrated networks. Computing 104(7): 1551-1564 (2022)

[4] Noura Aljeri, Azzedine Boukerche: Smart and Green Mobility Management for 5G-enabled Vehicular Networks. Trans. Emerg. Telecommun. Technol. 33(3) (2022)

[5] Noura Aljeri, Azzedine Boukerche: An efficient heuristic switch migration scheme for software-defined vehicular networks. J. Parallel Distributed Comput. 164: 96-105 (2022)

[6] Azzedine Boukerche, Noura Aljeri: An Energy-Efficient Controller Management Scheme for Software-Defined Vehicular Networks. IEEE Trans. Sustain. Comput. 7(1): 61-74 (2022)

[7] Noura Aljeri, Azzedine Boukerche: EDiPSo: An Efficient Scalable Topology Discovery Protocol for Software-Defined Vehicular Networks. Comput. Networks 200: 108342 (2021)

[8] Noura Aljeri, Azzedine Boukerche: Mobility Management in 5G-enabled Vehicular Networks: Models, Protocols, and Classification. ACM Comput. Surv. 53(5): 92:1-92:35 (2021)

[9] Azzedine Boukerche, Noura Aljeri: Design Guidelines for Topology Management in Software-Defined Vehicular Networks. IEEE Netw. 35(2): 120-126 (2021)

[10] Noura Aljeri, Azzedine Boukerche: A Mobility-based Switch Migration Scheme for Software-Defined Vehicular Networks. ICC 2021: 1-6 (2021)

[11] Noura Aljeri, Azzedine Boukerche: A Novel Dynamic Split and Merge Clustering Scheme for SDVN. DIVANet 2021: 71-76 (2021)

[12] Noura Aljeri, Azzedine Boukerche: ADVICE-LOC: An adaptive vehicle-centric location management scheme for intelligent connected cars. Ad Hoc Networks 107: 102223 (2020)

[13] Noura Aljeri, Azzedine Boukerche: Fog-enabled vehicular networks: A new challenge for mobility management. Internet Technol. Lett. 3(6) (2020)

[14] Peng Sun, Noura Aljeri, Azzedine Boukerche: Machine Learning-Based Models for Real-time Traffic Flow Prediction in Vehicular Networks. IEEE Netw. 34(3): 178-185 (2020)

[15] Peng Sun, Noura AlJeri, Azzedine Boukerche: An Energy-Efficient Proactive Handover Scheme for Vehicular Networks Based on Passive RSU Detection. IEEE Trans. Sustain. Comput. 5(1): 37-47 (2020)

[16] Peng Sun, Noura AlJeri, Azzedine Boukerche: DACON: A Novel Traffic Prediction and Data-Highway-Assisted Content Delivery Protocol for Intelligent Vehicular Networks. IEEE Trans. Sustain. Comput. 5(4): 501-513 (2020)

[17] Noura Aljeri, Azzedine Boukerche: A Dynamic MAP Discovery and Selection Scheme for Predictive Hierarchical MIPv6 in Vehicular Networks. IEEE Trans. Veh. Technol. 69(1): 793-806 (2020)

[18] Noura Aljeri, Azzedine Boukerche: Load Balancing and QoS-Aware Network Selection Scheme in Heterogeneous Vehicular Networks. ICC 2020: 1-6 (2020)

[19] Noura Aljeri, Azzedine Boukerche: A Performance Evaluation of Time-Series Mobility Prediction for Connected Vehicular Networks. Q2SWinet 2020: 127-131 (2020)

[20] Noura Aljeri, Azzedine Boukerche: An Adaptive Traffic-Flow based Controller Deployment Scheme for Software-Defined Vehicular Networks. MSWiM 2020: 191-198 (2020)

[21] Noura Aljeri, Azzedine Boukerche: A Distributed Topology Discovery Protocol for Software-Defined Vehicular Networks. PE-WASUN 2020: 17-24 (2020)

[22] Noura Aljeri, Azzedine Boukerche: A two-tier machine learning-based handover management scheme for intelligent vehicular networks. Ad Hoc Networks 94 (2019)

[23] Noura Aljeri, Azzedine Boukerche: Movement prediction models for vehicular networks: an empirical analysis. Wirel. Networks 25(4): 1505-1518 (2019)

[24] Noura Aljeri, Azzedine Boukerche: A Novel Online Machine Learning Based RSU Prediction Scheme for Intelligent Vehicular Networks. AICCSA 2019: 1-8 (2019)

[25] Noura Aljeri, Azzedine Boukerche: A Probabilistic Neural Network-Based Road Side Unit Prediction Scheme for Autonomous Driving. ICC 2019: 1-6 (2019)

[26] Noura Aljeri, Azzedine Boukerche: An Efficient Handover Trigger Scheme for Vehicular Networks Using Recurrent Neural Networks. Q2SWinet 2019: 85-91 (2019)

[27] Noura Aljeri, Azzedine Boukerche: An Optimized Link Duration-Based Mobility Management Scheme for Connected Vehicular Networks. PE-WASUN 2019: 7-14 (2019)

[28] Peng Sun, Noura Aljeri, Azzedine Boukerche: A Queueing Model-Assisted Traffic Conditions Estimation Scheme for Supporting Vehicular Edge Computing. PIMRC 2019: 1-6 (2019)

[29] Peng Sun, Noura AlJeri, Azzedine Boukerche: A Fast Vehicular Traffic Flow Prediction Scheme Based on Fourier and Wavelet Analysis. GLOBECOM 2018: 1-6 (2018)

[30] Noura Aljeri, Azzedine Boukerche: Mobility and Handoff Management in Connected Vehicular Networks. MobiWac 2018: 82-88 (2018)

[31] Peng Sun, Noura AlJeri, Azzedine Boukerche: A Novel Proactive Handover Scheme for Achieving Energy-Efficient Vehicular Networks. Q2SWinet@MSWiM 2018: 23-28 (2018)

[32] Noura Aljeri, Azzedine Boukerche: An Efficient Movement-Based Handover Prediction Scheme for Hierarchical Mobile IPv6 in VANETs. PE-WASUN 2018: 47-54 (2018)

[33] Azzedine Boukerche, Alexander Magnano, Noura Aljeri: Mobile IP Handover for Vehicular Networks: Methods, Models, and Classifications. ACM Comput. Surv. 49(4): 73:1-73:34 (2017)

[34] Peng Sun, Noura Aljeri, Azzedine Boukerche: A Novel Passive Road Side Unit Detection Scheme in Vehicular Networks. GLOBECOM 2017: 1-5 (2017)

[35] Noura Aljeri, Azzedine Boukerche: Performance evaluation of movement prediction techniques for vehicular networks. ICC 2017: 1-6 (2017)

[36] Noura Aljeri, Azzedine Boukerche: A predictive collision detection protocol using vehicular networks. PIMRC 2017: 1-5 (2017)

[37] Robson Eduardo De Grande, Azzedine Boukerche, Shichao Guan, Noura Aljeri: A modular distributed simulation-based architecture for intelligent transportation systems. Concurr. Comput. Pract. Exp. 28(12): 3409-3426 (2016)

[38] Azzedine Boukerche, Noura Aljeri, Kaouther Abrougui, Yan Wang: Towards a secure hybrid adaptive gateway discovery mechanism for intelligent transportation systems. Secur. Commun. Networks 9(17): 4027-4047 (2016)

[39] Noura Aljeri, Kaouther Abrougui, Mohammed Almulla, Azzedine Boukerche: A reliable quality of service aware fault tolerant gateway discovery protocol for vehicular networks. Wirel. Commun. Mob. Comput. 15(10): 1485-1495 (2015)

[40] Noura Aljeri, Kaouther Abrougui, Mohammed Almulla, Azzedine Boukerche: A Performance Evaluation of Load Balancing and QoS-aware Gateway Discovery Protocol for VANETs. AINA Workshops 2013: 90-94 (2013)

[41] Noura Aljeri, Mohammed Almulla, Azzedine Boukerche: An efficient fault detection and diagnosis protocol for vehicular networks. DIVANet@MSWiM 2013: 23-30 (2013)

[42] Noura Aljeri, Kaouther Abrougui, Mohammed Almulla, Azzedine Boukerche: A reliable and robust gateway discovery mechanism for vehicular ad hoc networks. MOBIWAC 2012: 121-124 (2012)