M Gramaglia | Marco Gramaglia

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DeepCog: Cognitive Network Management in Sliced 5G Networks with Deep Learning
A Future-Proof Architecture for Management and Orchestration of Multi-Domain NextGen Networks
A Machine Learning approach to 5G Infrastructure Market optimization
Resource Sharing Efficiency in Network Slicing
CARES: Computation-Aware Scheduling in Virtualized Radio Access Networks
5G-MoNArch Use Case for ETSI ENI: Elastic Resource Management and Orchestration
Identifying 5G System Enhancements: Enabling Technologies for Multi-Service Networks
POSENS: A Practical Open Source Solution for End-to-End Network Slicing
Enabling Vertical Industries Adoption of 5G Technologies: A Cartography of Evolving Solutions
SEMPER: A Stateless Traffic Engineering Solution for WAN Based on MP-TCP
The path towards resource elasticity for 5G network architecture
Overall 5G-MoNArch architecture and implications for resource elasticity
Bidirectional highway traffic for network simulation
Automotive Communications in LTE: A Simulation-Based Performance Study
Mobile traffic forecasting for maximizing 5G network slicing resource utilization
Network slicing with flexible mobility and QoS/QoE support for 5G Networks
Optimising 5G infrastructure markets: The business of network slicing
Preserving mobile subscriber privacy in open datasets of spatiotemporal trajectories
Flexible connectivity and QoE/QoS management for 5G Networks: The 5G NORMA view
On the level of detail of synthetic highway traffic necessary to vehicular networking studies
Temporal connectivity of vehicular networks: The power of store-carry-and-forward
The Bologna Ringway Dataset: Improving Road Network Conversion in SUMO and Validating Urban Mobility via Navigation Services
Measurement-Based Modeling of Interarrivals for the Simulation of Highway Vehicular Networks
ABEONA Monitored Traffic: VANET-Assisted Cooperative Traffic Congestion Forecasting
Vehicular networks on two Madrid highways
Overhearing-Assisted Optimization of Address Autoconfiguration in Position-Aware VANETs
Performance evaluation of a tree-based routing and address autoconfiguration for vehicle-to-Internet communications
New insights from the analysis of free flow vehicular traffic in highways
Optimized IPv6 Internet access from vehicles in multi-hop and heterogeneous environments
TREBOL: Tree-Based Routing and Address Autoconfiguration for Vehicle-to-Internet Communications