Your search keyword '"Ciulli, Nicola"' showing total 2 results

1. Offline Joint Network and Computational Resource Allocation for Energy-Efficient 5G and beyond Networks.

Author

Gatzianas, Marios, Mesodiakaki, Agapi, Kalfas, George, Pleros, Nikos, Moscatelli, Francesca, Landi, Giada, Ciulli, Nicola, and Lossi, Leonardo

Subjects

RESOURCE allocation, 5G networks, VIRTUAL networks, ALGORITHMS, ENERGY consumption, WIRELESS sensor networks

Abstract

In order to cope with the ever-increasing traffic demands and stringent latency constraints, next generation, i.e., sixth generation (6G) networks, are expected to leverage Network Function Virtualization (NFV) as an enabler for enhanced network flexibility. In such a setup, in addition to the traditional problems of user association and traffic routing, Virtual Network Function (VNF) placement needs to be jointly considered. To that end, in this paper, we focus on the joint network and computational resource allocation, targeting low network power consumption while satisfying the Service Function Chain (SFC), throughput, and delay requirements. Unlike the State-of-the-Art (SoA), we also take into account the Access Network (AN), while formulating the problem as a general Mixed Integer Linear Program (MILP). Due to the high complexity of the proposed optimal solution, we also propose a low-complexity energy-efficient resource allocation algorithm, which was shown to significantly outperform the SoA, by achieving up to 78% of the optimal energy efficiency with up to 742 times lower complexity. Finally, we describe an Orchestration Framework for the automated orchestration of vertical-driven services in Network Slices and describe how it encompasses the proposed algorithm towards optimized provisioning of heterogeneous computation and network resources across multiple network segments. [ABSTRACT FROM AUTHOR]

Published

2021

2. Guest Editorial Special Issue on Automation and Optimization for Energy Systems.

Author

Dotoli, Mariagrazia, Grammatico, Sergio, and Ciulli, Nicola

Subjects

ENERGY industries, TECHNOLOGICAL innovations, ELECTRIC power distribution grids, ENERGY consumption, STOCHASTIC analysis

Abstract

As innovative energy-related technologies are rapidly developing, new elements are populating the electrical power grid, such as unpredictable renewable energies, plug-in electric vehicles (EVs), smart electrical home appliances, energy efficient homes/buildings, and distributed energy storage. All these elements induce a paradigm shift in power grids, which are evolving from producer-controlled structures to large, distributed, and customer-interactive ones, enhancing the coupling between the physical and the information layer. In order to be effectively employed on a large scale, all these elements must rely on automation, as well as on optimization methods, for the efficient management and consumption of energy resources under varying stochastic conditions. Driven by these changes, power grids have become complex and large-scale platforms with growing needs for automation and optimal energy management services, a concept that can be referred to as smart grids. [ABSTRACT FROM AUTHOR]

Published

2017