Abstract
The autonomic composition of Virtual Networks (VNs) and Service Function Chains (SFCs) based on application requirements is significant for complex environments. In this paper, we use graph transformation in order to compose an Extended Virtual Network (EVN) that is based on different requirements, such as locations, low latency, redundancy, and security functions. The EVN can represent physical environment devices and virtual application and network functions. We build a generic Virtual Network Embedding (VNE) framework for transforming an Application Request (AR) to an EVN. Subsequently, we define a set of transformations that reflect preliminary topological, performance, reliability, and security policies. These transformations update the entities and demands of the VN and add SFCs that include the required Virtual Network Functions (VNFs). Additionally, we propose a greedy proactive heuristic for path-independent embedding of the composed SFCs. This heuristic is appropriate for real complex environments, such as industrial networks. Furthermore, we present an Industrail Internet of Things (IIoT) use case that was inspired by Industry 4.0 concepts, in which EVNs for remote asset management are deployed over three levels; manufacturing halls and edge and cloud computing. We also implement the developed methods in Alevin and show exemplary mapping results from our use case. Finally, we evaluate the chain embedding heuristic while using a random topology that is typical for such a use case, and show that it can improve the admission ratio and resource utilization with minimal overhead.
Highlights
The traditional legacy networking paradigm of deploying proprietary and hardware-based network functions is not flexible enough to satisfy the emerging and ever-growing application requirements, mainly the security, performance, and resilience requirements of 5G mobile networks and Industry 4.0
We present an Industrail Internet of Things (IIoT) use case that was inspired by Industry 4.0 concepts, in which Extended Virtual Network (EVN) for remote asset management are deployed over three levels; manufacturing halls and edge and cloud computing
We added to Alevin a generic structure to define transformations that are based on an abstract transformation class and method that takes the Virtual Networks (VNs) and SN as input
Summary
The traditional legacy networking paradigm of deploying proprietary and hardware-based network functions is not flexible enough to satisfy the emerging and ever-growing application requirements, mainly the security, performance, and resilience requirements of 5G mobile networks and Industry 4.0. This is due to the complexity and high cost of deploying new devices, upgrading devices, and service innovation. Network Function Virtualization (NFV) is a modern technology that decouples the network functions from the hardware. NFV leverages virtualization technologies to flexibly deploy complex network functions on-demand in the required locations. The network functions are deployed in the form of virtual machines or containers on standard servers
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