The rapid evolution of modern networking has led to increased research efforts in the areas
of edge computing and network slicing, fueled by the rise of the Internet of Things (IoT) and …

The rapid evolution of modern networking has led to increased research efforts in the areas
of edge computing and network slicing, fueled by the rise of the Internet of Things (IoT) and …

Over the last years, we have seen the emergence of (hyper-) distributed applications, which
tend to be provisioned over resources that span IoT devices, IoT gateways, and compute …

The increasing resource demand and diversity of network services is taken under serious
consideration by the various stakeholders, driving the architecture design of 5G (and …

Network slicing is set out to address crucial needs of 5G, including support for multi-service
provisioning. Focusing on resource and performance isolation, as well as security concerns …

Edge computing is one of the critical components enabling low-latency demanding services
in beyond 5G networks. Indeed, the deployed applications at the edge benefit from their …

Cloud-native network functions are becoming promising for 5G and beyond networks. They
provide the much needed agility and flexibility that was missing from virtual machines …

The novel concept of network slicing is envisioned to allow service providers to open their
infrastructure to vertical industries traditionally alien to mobile networks, such as automotive …

Edge computing seeks to enable applications with strict latency requirements by utilizing
compute resources deployed closer to the users. The diverse, dynamic, and constrained …

With the advancement of Internet-of-Things (IoT) technology, various domains, such as
smart factories and smart cars have used this new technology to provide value-added …