Alamgir Naushad scite author profile

The revolutionary advancement in the capabilities of hardware tools, software packages, and communication techniques gave rise to the Internet of Things-supported drone networks (IoD), thereby enabling smooth communication among devices and applications, and impacting drastically the various aspects of human lives. However, with the increasing sophistication in the infrastructure of IoD, new security threats arise that require novel algorithms and schemes as solutions. To this end, several schemes have recently been proposed. However, some schemes cannot perfectly address the novel security aspects associated with IoD environments, while others cannot provide computational or communication efficiency. Motivated by these research gaps in the existing literature, we leverage elliptic curve cryptography along with symmetric encryption and hash function, and propose a novel and robust user authentication mechanism for the IoD, called RUAM-IoD. We validate the security of the established SK formally through the random oracle model. Similarly, we provide informal security analysis to demonstrate the security capabilities of RUAM-IoD against different pernicious security attacks. Likewise, we establish a comparison of the RUAM-IoD with several state-of-the-art authentication schemes to show that RUAM-IoD acquires less storage, communication, and computational cost.

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A Robust Access Control Protocol for the Smart Grid Systems

Tanveer

Khan

Kumar

et al. 2022

IEEE Internet Things J.

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HBLP: A Hybrid Underlay-Interweave Mode CRN for the Future 5G-Based Internet of Things

Khan

Abbas

et al. 2020

IEEE Access

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Enhancing spectrum utilization efficiency (SUE) to accommodate the multitude of 5G-based IoT devices within the available scarce spectrum has been a pivotal point of research in the current decade. Equipped with interweave and underlay modes, cognitive radio networks (CRNs) are envisioned to be the most promising technology for SUE enhancement. Since the 5G-based IoT is swiftly transforming into a heterogeneous network, hybrid underlay-interweave mode CRNs appear to be the optimal key for SUE enhancement. Besides enhancing SUE, ensuring fairness among secondary users (SUs) to equitably utilize the network's resources in the wake of primary users' (PUs) service emergence has been a critical problem in CRNs. Considering the importance of SUE enhancement, in this paper, we investigate two problems. Firstly, we precisely analyze, in a novel way, the performance of hybrid underlay-interweave mode of CRNs for SUE enhancement from the standpoint of SUs. For this purpose, we propose a hybrid underlay-interweave mode enabled CRN scheme and apply it on a legacy CRN. We model the proposed scheme with continuous time Markov chain and derive closed form expressions for various SUE-related quality of service parameters. The analysis is conducted under dynamic reservation of channels for interrupted users, considering the effects of multi-levels network traffic loads and varying channel failure rates. Secondly, we propose a multi-attribute based fairness driven algorithm for determination and interruption of SUs' services to ensure fairness among services in the network's resources utilization. We evaluate our proposed scheme under both perfect and imperfect spectrum sensing scenarios. The obtained results demonstrate that, as compared to the state-ofthe-art, the proposed scheme significantly enhances SUE while the proposed algorithm achieves a noticeable fairness among SUs' services. INDEX TERMS Cognitive radio networks, dynamic spectrum access, dynamic channel reservation, hybrid underlay-interweave mode, spectrum utilization efficiency.

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Energy Efficient Clustering with Reliable and Load-Balanced Multipath Routing for WSNs

Naushad

Abbas

Shah

et al. 2020

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Alamgir Naushad

RUAM-IoD: A Robust User Authentication Mechanism for the Internet of Drones

A Robust Access Control Protocol for the Smart Grid Systems

HBLP: A Hybrid Underlay-Interweave Mode CRN for the Future 5G-Based Internet of Things

Energy Efficient Clustering with Reliable and Load-Balanced Multipath Routing for WSNs

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