M
Mahendra K. Shukla
Researcher at University of Saskatchewan
Publications - 25
Citations - 440
Mahendra K. Shukla is an academic researcher from University of Saskatchewan. The author has contributed to research in topics: Relay & Wireless. The author has an hindex of 7, co-authored 25 publications receiving 218 citations. Previous affiliations of Mahendra K. Shukla include Indian Institute of Information Technology, Allahabad & Indian Institutes of Information Technology.
Papers
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Journal ArticleDOI
Unmanned aerial vehicle for internet of everything: Opportunities and challenges
TL;DR: A UAV-enabled IoE (Ue-IoE) solution is introduced by exploiting UAVs’s mobility, in which it is shown that Ue-ioE can greatly enhance the scalability, intelligence and diversity of IoE.
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On Connectivity of UAV-Assisted Data Acquisition for Underwater Internet of Things
TL;DR: This article proposes an unmanned aerial vehicles (UAVs)-assisted underwater data acquisition scheme by placing multiple sink nodes on the water surface to serve as intermediate relays between underwater sensors (IoT nodes) and UAVs.
Proceedings ArticleDOI
Computational intelligence based intrusion detection systems for wireless communication and pervasive computing networks
TL;DR: This paper analyses the role of computational intelligence techniques to design adaptive and cognitive intrusion detection systems that can efficiently detect malicious network activities and proposes novel three-tier architecture for designing intelligent intrusion Detection systems for wireless networks.
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Cellular Multiuser Two-Way Relay Network With Cochannel Interference and Channel Estimation Error: Performance Analysis and Optimization
TL;DR: The results reveal that the OPA I outperforms OPA II, irrespective of different channel/system parameters, interferers, and relay locations, and it is highlighted that the impact of CCI can be alleviated by increasing the number of relay antennas.
Journal ArticleDOI
Multiuser Full-Duplex IoT Networks With Wireless-Powered Relaying: Performance Analysis and Energy Efficiency Optimization
TL;DR: This paper derives exact overall outage probability (OOP) expressions and tight closed-form expressions for the ergodic sum rate (ESR) under generalized Nakagami- ${m}$ fading channels and obtains optimal power allocation (OPA) under the total power and rate threshold constraints.