Abstract
The Next Generation 5G Networks can greatly benefit from the synergy between virtualization paradigms, such as the Network Function Virtualization (NFV), and service provisioning platforms such as the IP Multimedia Subsystem (IMS). The NFV concept is evolving towards a lightweight solution based on containers that, by contrast to classic virtual machines, do not carry a whole operating system and result in more efficient and scalable deployments. On the other hand, IMS has become an integral part of the 5G core network, for instance, to provide advanced services like Voice over LTE (VoLTE). In this paper we combine these virtualization and service provisioning concepts, deriving a containerized IMS infrastructure, dubbed cIMS, providing its assessment through statistical characterization and experimental measurements. Specifically, we: i) model cIMS through the queueing networks methodology to characterize the utilization of virtual resources under constrained conditions; ii) draw an extended version of the Pollaczek-Khinchin formula, which is useful to deal with bulk arrivals; iii) afford an optimization problem focused at maximizing the whole cIMS performance in the presence of capacity constraints, thus providing new means for the service provider to manage service level agreements (SLAs); $iv)$ evaluate a range of cIMS scenarios, considering different queuing disciplines including also multiple job classes. An experimental testbed based on the open source platform Clearwater has been deployed to derive some realistic values of key parameters (e.g. arrival and service times).
Highlights
S OFTWARIZATION plays a crucial role in 5G network infrastructures [1], [2]
The Network Function Virtualization (NFV) paradigm plays a central role in this process, since it provides a series of advantages such as flexibility in service provisioning, efficiency in resource utilization, and considerable potential for cost reductions [3], [4]
In order to address this particular case, we consider an M/G/1 queue, which allows us to arrive at an extended version of the so-called Pollaczek-Khinchin (P-K) formula that, in classic literature ([41], [52]), is typically derived with no reference to the bulk case
Summary
S OFTWARIZATION plays a crucial role in 5G network infrastructures [1], [2]. It refers to those systems, tools, and procedures which intervene across the transformation process at the basis of novel telecommunication frameworks. Exemplary is the case of AT&T that has been one of the first to expose (on a dedicated platform) small, independent, and self-contained business functions through container-based APIs [15] Another core part of 5G infrastructures is the IP Multimedia Subsystem (IMS), which has been identified as the best candidate for delivering multimedia content and services [16] such as gaming, presence, and Peer-to-Peer resource sharing [17]. Inspired by this fruitful combination between virtualization and service provisioning concepts, in this paper we consider a container-based IMS framework, dubbed cIMS.
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