Roberto Bruschi
University of Genoa
137 Papers
823 Citations
Roberto Bruschi is an academic researcher from University of Genoa. The author has contributed to research in topics: Energy consumption & Networking hardware. The author has an hindex of 20, co-authored 120 publications. Previous affiliations of Roberto Bruschi include University of Central Florida.
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Papers
Satellite Networking Integration in the 5G Ecosystem: Research Trends and Open Challenges
TL;DR: An overview of the main research works in the field of SDN satellite networks and some open challenges are described in light of the network slicing concept by 5G virtualization, along with a possible roadmap including different network virtualization levels.
138
Enabling backbone networks to sleep
TL;DR: The main idea consists of periodically reconfiguring nodes and links to meet incoming traffic volumes and operational constraints of real-world networks, such as reliability, stability, quality of service, and reconvergence times.
105
Cutting the energy bills of Internet Service Providers and telecoms through power management
Raffaele Bolla,Roberto Bruschi,Alessandro Carrega,Franco Davoli,Diego Suino,Constantinos Vassilakis,Anastasios Zafeiropoulos +6 more
TL;DR: The main goal of this work is to quantitatively evaluate the potential energy savings from applying energy-efficient techniques, while examining the trade-off between network performance and the achieved energy savings.
90
Linux Software Router: Data Plane Optimization and Performance Evaluation
Raffaele Bolla,Roberto Bruschi +1 more
TL;DR: The main target of this paper has been the forwarding performance evaluation of different OR Linux-based software architectures with both external (throughput and latencies) and internal (profiling) measurements.
57
DROPv2: energy efficiency through network function virtualization
TL;DR: This article presents a recent extension of an open source software framework, the Distributed Router Open Platform (DROP), to enable a novel distributed paradigm for network function virtualization through the integration of software defined network and information technology platforms, as well as for the control/management of flexible IP router platforms.
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