Vasilis Friderikos scite author profile

Prior Internet designs encompassed the fixed, mobile and lately the "things" Internet. In a natural evolution to these, the notion of the Tactile Internet is emerging which allows one to transmit touch and actuation in real-time. With voice and data communications driving the designs of the current Internets, the Tactile Internet will enable haptic communications, which in turn will be a paradigm shift in how skills and labor are digitally delivered globally. Design efforts for both the Tactile Internet and the underlying haptic communications are in its infancy. The aim of this article is thus to review some of the most stringent design challenges, as well as proposing first avenues for specific solutions to enable the Tactile Internet revolution.

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Cross-layer cooperation for accurate admission control decisions in mobile ad hoc networks

Renesse

Friderikos

Aghvami

2007

IET Commun.

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Virtual Network Functions Routing and Placement for Edge Cloud Latency Minimization

Gouareb

Friderikos

Aghvami

2018

IEEE J. Select. Areas Commun.

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Proactive Edge Cloud Optimization for Mobile Augmented Reality Applications

Huang

Friderikos

2021

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Will SDN Be Part of 5G?

Zaidi¹,

Friderikos

Yousaf³

et al. 2018

IEEE Commun. Surv. Tutorials

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For many, this is no longer a valid question and the case is considered settled with SDN/NFV (Software Defined Networking/Network Function Virtualization) providing the inevitable innovation enablers towards the realization of a virtualized, flexible, programmable and flexible 5G network. As SDN along with other technology enablers (including NFV) are still in the process of evolution, the first commercial deployment of 5G may take few years. However, some companies are claiming the availability of 5G solutions, but considering the monumental task of softwarization of mobile cellular networks there are genuine concerns that we may only see some point solutions involving SDN technology instead of a fully virtualized SDN-enabled 5G mobile network. In order to determine the technology readiness of SDN solutions in the context of 5G networks, this survey paper attempts to identify all important obstacles in the way, and looks at the state of the art of the relevant research. This survey is different from the previous surveys on SDN-based mobile networks as it focuses on the salient problems and discusses solutions proposed within and outside SDN literature. Our main focus is on fronthaul, backward compatibility, supposedly disruptive nature of SDN deployment, business cases and monetization of SDN related upgrades, latency of general purpose processors (GPP), and additional security vulnerabilities that softwarization brings along to the mobile network. We have also provided a summary of the architectural developments in SDN-based mobile network landscape, including deployment options for SDN within NFV framework, as not all work can be covered under the focused issues. This paper provides a comprehensive survey on the state of the art of SDNbased mobile networks and clearly points out the gaps in the technology.

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Network slicing with flexible mobility and QoS/QoE support for 5G Networks

Yousaf

Gramaglia

Friderikos

et al. 2017

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Optimal stopping for energy efficiency with delay constraints in Cognitive Radio networks

Zhao

Friderikos

2012

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Future RAN Architecture: SD-RAN Through a General-Purpose Processing Platform

Zaidi

Friderikos

Imran

2015

IEEE Veh. Technol. Mag.

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Abstract-In this article, we identify and study the potential of an integrated deployment solution for energy efficient cellular networks combining the strengths of two very active currently research themes: software defined radio access networks (SD-RAN) and decoupled signaling and data transmissions, or beyond cellular green generation (BCG2) architecture, for enhanced energy efficiency. While SD-RAN envisions a decoupled centralized control plane and data forwarding plane for flexible control, the BCG2 architecture calls for decoupling coverage from capacity and coverage is provided through always-on low-power signaling node for a larger geographical area; capacity is catered by various on-demand data nodes for maximum energy efficiency. In this paper, we identify that a combined approach bringing in both specifications together can, not only achieve greater benefits, but also facilitates the faster realization of both technologies. We propose the idea and design of a signaling controller which acts as a signaling node to provide always-on coverage, consuming low power, and at the same time also hosts the control plane functions for the SD-RAN through a general purpose processing platform. Phantom cell concept is also a similar idea where a normal macro cell provides interference control to densely deployed small cells, although, our initial results show that the integrated architecture has much greater potential of energy savings in comparison to phantom cells.

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