M
Mehdi Bennis
Researcher at University of Oulu
Publications - 642
Citations - 37644
Mehdi Bennis is an academic researcher from University of Oulu. The author has contributed to research in topics: Computer science & Wireless network. The author has an hindex of 68, co-authored 569 publications receiving 25361 citations. Previous affiliations of Mehdi Bennis include Kyung Hee University & Nokia Networks.
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Mobile Internet of Things: Can UAVs Provide an Energy-Efficient Mobile Architecture?
TL;DR: In this article, the optimal trajectory and deployment of multiple UAVs, used as aerial base stations to collect data from ground Internet of Things (IoT) devices, is investigated.
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Ultra-Reliable and Low-Latency Wireless Communication: Tail, Risk and Scale
TL;DR: A principled and scalable framework which takes into account delay, reliability, packet size, network architecture and topology, and decision-making under uncertainty is sorely lacking and is a first step to filling this void.
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Interference Alignment for Cooperative Femtocell Networks: A Game-Theoretic Approach
TL;DR: This paper proposes a novel cooperative solution that enables femtocells to improve their achievable data rates, by suppressing intratier interference using the concept of interference alignment (IA).
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Age of Information Aware Radio Resource Management in Vehicular Networks: A Proactive Deep Reinforcement Learning Perspective
TL;DR: A proactive algorithm based on long short-term memory and deep reinforcement learning techniques to address the partial observability and the curse of high dimensionality in local network state space faced by each VUE-pair is proposed.
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Joint Communication and Control for Wireless Autonomous Vehicular Platoon Systems
TL;DR: A novel framework is proposed for optimizing a platoon's operation while jointly taking into account the delay of the wireless V2V network and the stability of the vehicle’s control system, and guidelines for designing an autonomous platoon so as to realize the required wireless network reliability and control system stability.