Dr. Anik Islam
Affiliations
Postdoctoral Asosciate
University of Calgary
Contact information
Background
Educational Background
PhD IT convergence Engineering, Kumoh National Institute of Technology, 2021
Biography
Dr. Anik Islam has earned his Ph.D. in IT Convergence Engineering through dedicated research conducted at the Wireless and Emerging Network System Laboratory (WENS Lab) situated at Kumoh National Institute of Technology (KIT) in South Korea. Currently, he holds the position of a Postdoctoral Associate at the esteemed University of Calgary in Canada. Dr. Islam's academic journey began with his pursuit of a Master of Science degree and a Bachelor of Science degree, both of which he successfully attained at the American International University Bangladesh (AIUB). Dr. Islam's academic and research pursuits are characterized by a diverse and multidisciplinary range of interests. His primary areas of expertise encompass blockchain technology, the Internet of Things (IoT), unmanned aerial vehicles (UAVs), deep learning, transfer learning, federated learning, meta learning, edge computing, and distributed systems.
Research
Areas of Research
Publications
- A Federated Meta Learning-Based Secure Data Consolidation Scheme for Industrial AIoT Leveraging Drone. A Islam, H Karimipour, AO Fapojuwo. IEEE Transactions on Vehicular Technology. (2024)
- UAV-Employed Intelligent Approach to Identify Injured Soldier on Blockchain-integrated Internet of Battlefield Things. Md Masuduzzaman, Tariq Rahim, Anik Islam, Soo Young Shin. IEEE Transactions on Network and Service Management. (2024)
- A Federated Unlearning-Based Secure Management Scheme to Enable Automation in Smart Consumer Electronics Facilitated by Digital Twin. Anik Islam, Hadis Karimipour, Thippa Reddy Gadekallu, and Yaodong Zhu. IEEE Transactions on Consumer Electronics. (2024)
- An explainable multi-modal model for advanced cyber-attack detection in industrial control systems. Sepideh Bahadoripour, Hadis Karimipour, Amir Namavar Jahromi, Anik Islam. Internet of Things. 101092. (2024)
- A Digital Twin-Based Drone-Assisted Secure Data Aggregation Scheme with Federated Learning in Artificial Intelligence of Things. Anik Islam, Soo Young Shin. IEEE Network. 278 - 285. (2023)
- A Generalizable Deep Neural Network Method for Detecting Attacks in Industrial Cyber-Physical Systems. Jacob Sakhnini, Hadis Karimipour, Ali Dehghantanha, Abbas Yazdinejad, Thippa Reddy Gadekallu, Nancy Victor, Anik Islam. IEEE Systems Journal. (2023)
- Blockchain-Based Secure Firmware Update Using an UAV. Jong Wan Seo, Anik Islam, Md Masuduzzaman. Soo Young Shin. Electronics. 2189. (2023)
- UxV-Based Deep-Learning-Integrated Automated and Secure Garbage Management Scheme Using Blockchain. Md Masuduzzaman, Tariq Rahim, Anik Islam, Soo Young Shin. IEEE Internet of Things Journal. 6779 - 6793. (2023)
- FBI: A Federated Learning-Based Blockchain-Embedded Data Accumulation Scheme Using Drones for Internet of Things. Anik Islam, Ahmed Al Amin, Soo Young Shin. IEEE Wireless Communication Letters. 972-976. (2022)
- UAV-Based MEC-Assisted Automated Traffic Management Scheme using Blockchain. Md Masuduzzaman, Anik Islam, Kazi Sadia, Soo Young Shin. Future Generation Computer Systems. 256-270. (2022)
- A Blockchain-Based Artificial Intelligence-Empowered Contagious Pandemic Situation Supervision Scheme Using Internet of Drone Things. Anik Islam, Tariq Rahim, Md Masuduzzaman, Soo Young Shin. IEEE Wireless Communications. 166-173. (2021)
- A Blockchain-Based Secure Healthcare Scheme with the Assistance of Unmanned Aerial Vehicle in Internet of Things. Anik Islam, Soo Young Shin. Computers & Electrical Engineering. 106627. (2020)
- BUAV: A Blockchain Based Secure UAV-Assisted Data Acquisition Scheme in Internet of Things. Anik Islam, Soo Young Shin. Journal of Communications and Networks. 491 - 502. (2019)
- BUS: A Blockchain-Enabled Data Acquisition Scheme with the Assistance of UAV Swarm in Internet of Things. Anik Islam, Soo Young Shin. IEEE Access. 103231 - 103249. (2019)
- Cooperative Non-Orthogonal Multiple Access with SWIPT over Nakagami-$m$ Fading Channels. Md. Fazlul Kader, Mohammed Belal Uddin, Anik Islam, Soo Young Shin. Transactions on Emerging Telecommunications Technologies. e3571. (2019)
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