Arash Asadi scite author profile

Opportunistic scheduling was initially proposed to exploit user channel diversity for network capacity enhancement. However, the achievable gain of opportunistic schedulers is generally restrained due to fairness considerations which impose a tradeoff between fairness and throughput. In this paper, we show via analysis and numerical simulations that opportunistic scheduling not only increases network throughput dramatically, but also increases energy efficiency and can be fair to the users when they cooperate, in particular by using D2D communications. We propose to leverage smartphone's dual-radio interface capabilities to form clusters among mobile users. We design simple, scalable and energy-efficient D2D-assisted opportunistic strategies, which would incentivize mobile users to form clusters. We use a coalitional game theory approach to analyze the cluster formation mechanism, and show that proportional fair-based intra-cluster payoff distribution brings significant incentive to all mobile users regardless of their channel quality.

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Arash Asadi

A Survey on Device-to-Device Communication in Cellular Networks

An Online Context-Aware Machine Learning Algorithm for 5G mmWave Vehicular Communications

A Survey on Opportunistic Scheduling in Wireless Communications

Network-Assisted Outband D2D-Clustering in 5G Cellular Networks: Theory and Practice

On the compound impact of opportunistic scheduling and D2D communications in cellular networks

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